dataset of thermodynamic data for gwb programs dataset format: jul22 activity model: minteq fugacity model: tsonopoulos * * ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ * ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ * This dataset is the thermodynamic database from Visual MINTEQ release 2.40, * for use with the GWB programs. The dataset has been compiled from * files thermo.mdb, analyt.mdb, and comp.mdb. * * The Visual MINTEQ database is maintained by Jon Petter Gustafsson, KTH (Royal Institute * of Technology), Stockholm, Sweden. * The conversion code was written by Daniel Saalfeld and Craig Bethke, University of * Illinois, September 2003. This version was compiled in December 2005 by Jon Petter Gustafsson. * * Beginning with GWB 2021, the MINTEQ model uses the Truesdell-Jones, rather than Davies equation * to compute activity coefficients. To revert to prior behavior, set "activity model: davies" * in the header lines of this dataset. * * * Notes: * * Log K values were calculated as functions of temperature using the * van't Hoff equation or an analytic equation if it was present in analytic.mdb. * * All log K values reflect dissociation/dissolution/destruction reactions. * * The constants in the header section (Debye-Huckel A and B and pressures) * are taken from Minteq where available; otherwise, they are the default * GWB values. * * Data for O2(aq), taken from the "Minteq" dataset included in the PhreeqC * 2.8 release, were added to this dataset. * * Redox reactions have been rebalanced in terms of O2(aq), rather than the * electron e-, as previously expected by the GWB programs. * * The reactions for redox couples have been rebalanced in terms of basis species, * as was previously expected by the GWB programs. * * Species' names have been converted to the GWB format. For example, Ca++ replaces * Ca+2. * * Visual Minteq does not include H2(g), thus the Format > Appearance... > Diagram * > "water limits" checkbox for GWB programs Act2 and Tact should be unchecked * when using this dataset. * * To the best of our knowledge, this dataset is not subject to copyright. * ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ * ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ * temperatures 0.0000 12.5000 25.0000 40.0000 55.0000 70.0000 85.0000 100.0000 * pressures 1.0134 1.0134 1.0134 1.0134 1.0134 1.0134 1.0134 1.0134 * debye huckel a (adh) .4917 .5007 .5109 .5245 .5398 .5569 .5759 .6022 * debye huckel b (bdh) .3248 .3267 .3287 .3310 .3335 .3361 .3388 .3427 75 elements Silver (Ag) mole wt.= 107.8680 g Aluminum (Al) mole wt.= 26.9815 g Americium (Am) mole wt.= 243.0000 g Arsenic (As) mole wt.= 74.9216 g Gold (Au) mole wt.= 196.9670 g Boron (B ) mole wt.= 10.8100 g Barium (Ba) mole wt.= 137.3400 g Beryllium (Be) mole wt.= 9.0122 g Bismuth (Bi) mole wt.= 208.9800 g Berkelium (Bk) mole wt.= 247.0000 g Bromine (Br) mole wt.= 79.9040 g Carbon (C ) mole wt.= 12.0110 g Calcium (Ca) mole wt.= 40.0800 g Cadmium (Cd) mole wt.= 112.3994 g Cerium (Ce) mole wt.= 140.1160 g Californium (Cf) mole wt.= 251.0000 g Chlorine (Cl) mole wt.= 35.4530 g Curium (Cm) mole wt.= 247.0000 g Cobalt (Co) mole wt.= 58.9332 g Chromium (Cr) mole wt.= 51.9960 g Cesium (Cs) mole wt.= 132.9050 g Copper (Cu) mole wt.= 63.5460 g Dummy (Du) mole wt.= 89.0000 g Dysprosium (Dy) mole wt.= 162.5000 g Erbium (Er) mole wt.= 167.2590 g Europium (Eu) mole wt.= 151.9640 g Fluorine (F ) mole wt.= 18.9984 g Iron (Fe) mole wt.= 55.8470 g Gallium (Ga) mole wt.= 69.7230 g Gadolinium (Gd) mole wt.= 157.2500 g Hydrogen (H ) mole wt.= 1.0079 g Hafnium (Hf) mole wt.= 178.4900 g Mercury (Hg) mole wt.= 200.5900 g Holmium (Ho) mole wt.= 164.9300 g Iodine (I ) mole wt.= 126.9044 g Indium (In) mole wt.= 114.8180 g Potassium (K ) mole wt.= 39.1020 g Lanthanum (La) mole wt.= 138.9060 g Lithium (Li) mole wt.= 6.9390 g Lutetium (Lu) mole wt.= 174.9670 g Magnesium (Mg) mole wt.= 24.3120 g Manganese (Mn) mole wt.= 54.9380 g Molybdenum (Mo) mole wt.= 95.9400 g Nitrogen (N ) mole wt.= 14.0067 g Sodium (Na) mole wt.= 22.9898 g Neodymium (Nd) mole wt.= 144.2400 g Nickel (Ni) mole wt.= 58.7100 g Neptunium (Np) mole wt.= 237.0482 g Oxygen (O ) mole wt.= 15.9994 g Phosphorus (P ) mole wt.= 30.9738 g Lead (Pb) mole wt.= 207.1899 g Palladium (Pd) mole wt.= 106.4200 g Praseodymium (Pr) mole wt.= 140.9080 g Plutonium (Pu) mole wt.= 244.0000 g Rubidium (Rb) mole wt.= 85.4699 g Sulfur (S ) mole wt.= 32.0640 g Antimony (Sb) mole wt.= 121.7500 g Scandium (Sc) mole wt.= 44.9560 g Selenium (Se) mole wt.= 78.9600 g Silicon (Si) mole wt.= 28.0855 g Samarium (Sm) mole wt.= 150.3600 g Tin (Sn) mole wt.= 118.6900 g Strontium (Sr) mole wt.= 87.6200 g Terbium (Tb) mole wt.= 158.9250 g Thorium (Th) mole wt.= 232.0400 g Titanium (Ti) mole wt.= 47.9000 g Thallium (Tl) mole wt.= 204.3700 g Thulium (Tm) mole wt.= 168.9340 g Uranium (U ) mole wt.= 238.0290 g Vanadium (V ) mole wt.= 50.9415 g Tungsten (W ) mole wt.= 183.8500 g Yttrium (Y ) mole wt.= 88.9100 g Ytterbium (Yb) mole wt.= 173.0400 g Zinc (Zn) mole wt.= 65.3699 g Zirconium (Zr) mole wt.= 91.2240 g -end- * The following basis species were never used in other species and should mostly * just be dummy variables for various Visual Minteq surface models * thus they were not included with the rest. * >(s)FeOH, >(w)FeOH, ADS1TYP3, ADS2TYP1, ADS2TYP2, ADS2TYP3, ADS3TYP1, * ADS3TYP2, ADS3TYP3, ADS4TYP1, ADS4TYP2, ADS4TYP3, ADS5TYP1, ADS5TYP2, * ADS5TYP3, DOM1--, DOM2--, DOM3--, PSIb(1), PSIb(2), PSIb(3), PSIb(4), * PSIb(5), PSId(1), PSId(2), PSId(3), PSId(4), PSId(5), PSIo(1), PSIo(2), * PSIo(3), PSIo(4), PSIo(5) 128 basis species H2O charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 18.0152 g 2 elements in species 2.000 H 1.000 O 2Picol formula= C6H7N charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 93.1280 g 3 elements in species 6.000 C 7.000 H 1.000 N 3Picol formula= C6H7N charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 93.1280 g 3 elements in species 6.000 C 7.000 H 1.000 N 4Picol formula= C6H7N charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 93.1280 g 3 elements in species 6.000 C 7.000 H 1.000 N Acetate- formula= CH3COO- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 59.0445 g 3 elements in species 2.000 C 3.000 H 2.000 O Ag+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 107.8680 g 1 elements in species 1.000 Ag Al+++ charge= 3 ion size= 9.0 A b= 0.0000 mole wt.= 26.9815 g 1 elements in species 1.000 Al Am+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 243.0000 g 1 elements in species 1.000 Am AsO4--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 138.9192 g 2 elements in species 1.000 As 4.000 O Au+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 196.9670 g 1 elements in species 1.000 Au Ba++ charge= 2 ion size= 5.0 A b= 0.0000 mole wt.= 137.3400 g 1 elements in species 1.000 Ba Be++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 9.0122 g 1 elements in species 1.000 Be Benzoate- formula= C6H5COO- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 121.1153 g 3 elements in species 7.000 C 5.000 H 2.000 O Bi+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 208.9800 g 1 elements in species 1.000 Bi Bk+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 247.0000 g 1 elements in species 1.000 Bk Br- charge= -1 ion size= 4.0 A b= 0.0000 mole wt.= 79.9040 g 1 elements in species 1.000 Br BuAm formula= C4H11N charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 73.1376 g 3 elements in species 4.000 C 11.000 H 1.000 N Butyrate- formula= CH3CH2CH2COO- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 87.0981 g 3 elements in species 4.000 C 7.000 H 2.000 O Ca++ charge= 2 ion size= 6.0 A b= .1650 mole wt.= 40.0800 g 1 elements in species 1.000 Ca Cd++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 112.3994 g 1 elements in species 1.000 Cd Ce+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 140.1160 g 1 elements in species 1.000 Ce Cf+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 251.0000 g 1 elements in species 1.000 Cf Citrate--- formula= C3H5O(COO)3--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 189.1013 g 3 elements in species 6.000 C 5.000 H 7.000 O Cl- charge= -1 ion size= 3.0 A b= .0150 mole wt.= 35.4530 g 1 elements in species 1.000 Cl ClO4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 99.4506 g 2 elements in species 1.000 Cl 4.000 O Cm+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 247.0000 g 1 elements in species 1.000 Cm CN- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 26.0177 g 2 elements in species 1.000 C 1.000 N Co+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 58.9332 g 1 elements in species 1.000 Co CO3-- charge= -2 ion size= 5.4 A b= 0.0000 mole wt.= 60.0092 g 2 elements in species 1.000 C 3.000 O CrO4-- charge= -2 ion size= 4.0 A b= 0.0000 mole wt.= 115.9936 g 2 elements in species 1.000 Cr 4.000 O Cs+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 132.9050 g 1 elements in species 1.000 Cs Cu++ charge= 2 ion size= 6.0 A b= 0.0000 mole wt.= 63.5460 g 1 elements in species 1.000 Cu DiEtAm formula= (CH3CH2)2NH charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 73.1376 g 3 elements in species 4.000 C 11.000 H 1.000 N DiMeAm formula= (CH3)2NH charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 45.0840 g 3 elements in species 2.000 C 7.000 H 1.000 N DTPA----- formula= C14H18N3O10----- charge= -5 ion size= 0.0 A b= 0.0000 mole wt.= 388.3103 g 4 elements in species 14.000 C 18.000 H 3.000 N 10.000 O dummy charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 89.0000 g 1 elements in species 1.000 Du Dy+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 162.5000 g 1 elements in species 1.000 Dy EDTA---- formula= C10H12N2O8---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 288.2134 g 4 elements in species 10.000 C 12.000 H 2.000 N 8.000 O EGTA---- formula= C14H20N2O10---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 376.3194 g 4 elements in species 14.000 C 20.000 H 2.000 N 10.000 O Er+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 167.2590 g 1 elements in species 1.000 Er EtDiAm formula= C2H4(NH2)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 60.0986 g 3 elements in species 2.000 C 8.000 H 2.000 N Eu+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 151.9640 g 1 elements in species 1.000 Eu F- charge= -1 ion size= 3.5 A b= 0.0000 mole wt.= 18.9984 g 1 elements in species 1.000 F Fe+++ charge= 3 ion size= 9.0 A b= 0.0000 mole wt.= 55.8470 g 1 elements in species 1.000 Fe Formate- formula= HCOO- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 45.0177 g 3 elements in species 1.000 C 1.000 H 2.000 O Ga+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 69.7230 g 1 elements in species 1.000 Ga Gd+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 157.2500 g 1 elements in species 1.000 Gd Glutamate-- formula= C5H7NO4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 145.1146 g 4 elements in species 5.000 C 7.000 H 1.000 N 4.000 O Glutarate-- formula= C3H6(COO)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 130.1000 g 3 elements in species 5.000 C 6.000 H 4.000 O Glycine- formula= NH2CH2COO- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 74.0591 g 4 elements in species 2.000 C 4.000 H 1.000 N 2.000 O H+ charge= 1 ion size= 9.0 A b= 0.0000 mole wt.= 1.0079 g 1 elements in species 1.000 H H3BO3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 61.8319 g 3 elements in species 1.000 B 3.000 H 3.000 O H4SiO4 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 96.1147 g 3 elements in species 4.000 H 4.000 O 1.000 Si HEDTA--- formula= C10H15N2O7--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 275.2377 g 4 elements in species 10.000 C 15.000 H 2.000 N 7.000 O HexylAm formula= C6H15N charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 101.1912 g 3 elements in species 6.000 C 15.000 H 1.000 N Hf++++ charge= 4 ion size= 0.0 A b= 0.0000 mole wt.= 178.4900 g 1 elements in species 1.000 Hf Hg(OH)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 234.6046 g 3 elements in species 2.000 H 1.000 Hg 2.000 O Ho+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 164.9300 g 1 elements in species 1.000 Ho HVO4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 115.9470 g 3 elements in species 1.000 H 4.000 O 1.000 V I- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 126.9044 g 1 elements in species 1.000 I iButyrate- formula= (CH3)2CHCOO- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 87.0981 g 3 elements in species 4.000 C 7.000 H 2.000 O In+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 114.8180 g 1 elements in species 1.000 In iPhthalate-- formula= C6H4(COO)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 164.1172 g 3 elements in species 8.000 C 4.000 H 4.000 O iPrAm formula= (CH3)2CHNH2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 59.1108 g 3 elements in species 3.000 C 9.000 H 1.000 N iValerate- formula= (CH3)2CHCH2COO- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 101.1249 g 3 elements in species 5.000 C 9.000 H 2.000 O K+ charge= 1 ion size= 3.0 A b= .0150 mole wt.= 39.1020 g 1 elements in species 1.000 K La+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 138.9060 g 1 elements in species 1.000 La Lactate- formula= CH3CH(OH)COO- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 89.0707 g 3 elements in species 3.000 C 5.000 H 3.000 O Li+ charge= 1 ion size= 6.0 A b= 0.0000 mole wt.= 6.9390 g 1 elements in species 1.000 Li Lu+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 174.9670 g 1 elements in species 1.000 Lu Malate-- formula= C4H4O5-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 132.0726 g 3 elements in species 4.000 C 4.000 H 5.000 O Malonate-- formula= CH2(COO)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 102.0464 g 3 elements in species 3.000 C 2.000 H 4.000 O MeAm formula= CH3NH2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 31.0572 g 3 elements in species 1.000 C 5.000 H 1.000 N Mg++ charge= 2 ion size= 6.5 A b= .2000 mole wt.= 24.3120 g 1 elements in species 1.000 Mg Mn+++ charge= 3 ion size= 9.0 A b= 0.0000 mole wt.= 54.9380 g 1 elements in species 1.000 Mn MoO4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 159.9376 g 2 elements in species 1.000 Mo 4.000 O Na+ charge= 1 ion size= 4.0 A b= .0750 mole wt.= 22.9898 g 1 elements in species 1.000 Na Nd+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 144.2400 g 1 elements in species 1.000 Nd NH4+ charge= 1 ion size= 2.5 A b= 0.0000 mole wt.= 18.0383 g 2 elements in species 4.000 H 1.000 N Ni++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 58.7100 g 1 elements in species 1.000 Ni NO2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 46.0055 g 2 elements in species 1.000 N 2.000 O NO3- charge= -1 ion size= 3.0 A b= 0.0000 mole wt.= 62.0049 g 2 elements in species 1.000 N 3.000 O Np+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 237.0482 g 1 elements in species 1.000 Np NpO2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 269.0470 g 2 elements in species 1.000 Np 2.000 O NpO2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 269.0470 g 2 elements in species 1.000 Np 2.000 O NTA--- formula= N(CH2COO)3--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 188.1165 g 4 elements in species 6.000 C 6.000 H 1.000 N 6.000 O O2(aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 31.9988 g 1 elements in species 2.000 O OCl- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 51.4524 g 2 elements in species 1.000 Cl 1.000 O OCN- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 42.0171 g 3 elements in species 1.000 C 1.000 N 1.000 O Oxalate-- formula= (COO)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 88.0196 g 2 elements in species 2.000 C 4.000 O Pb++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 207.1899 g 1 elements in species 1.000 Pb Pd++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 106.4200 g 1 elements in species 1.000 Pd PhAcO- formula= C8H7O2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 135.1421 g 3 elements in species 8.000 C 7.000 H 2.000 O Phthalate-- formula= C6H4(COO)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 164.1172 g 3 elements in species 8.000 C 4.000 H 4.000 O PO4--- charge= -3 ion size= 5.0 A b= 0.0000 mole wt.= 94.9714 g 2 elements in species 4.000 O 1.000 P Pr+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 140.9080 g 1 elements in species 1.000 Pr PrAm formula= CH3(CH2)2NH2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 59.1108 g 3 elements in species 3.000 C 9.000 H 1.000 N Propionate- formula= CH3CH2COO- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 73.0713 g 3 elements in species 3.000 C 5.000 H 2.000 O PuO2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 275.9988 g 2 elements in species 2.000 O 1.000 Pu Rb+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 85.4699 g 1 elements in species 1.000 Rb S charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 32.0640 g 1 elements in species 1.000 S S2O3-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 112.1262 g 2 elements in species 3.000 O 2.000 S Sal-- formula= OC6H4COO-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 136.1068 g 3 elements in species 7.000 C 4.000 H 3.000 O Sb(OH)6- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 223.7938 g 3 elements in species 6.000 H 6.000 O 1.000 Sb Sc+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 44.9560 g 1 elements in species 1.000 Sc SCN- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 58.0817 g 3 elements in species 1.000 C 1.000 N 1.000 S SeO4-- charge= -2 ion size= 4.0 A b= 0.0000 mole wt.= 142.9576 g 2 elements in species 4.000 O 1.000 Se Sm+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 150.3600 g 1 elements in species 1.000 Sm Sn(OH)6-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 220.7338 g 3 elements in species 6.000 H 6.000 O 1.000 Sn SO3-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 80.0622 g 2 elements in species 3.000 O 1.000 S SO4-- charge= -2 ion size= 4.0 A b= -.0400 mole wt.= 96.0616 g 2 elements in species 4.000 O 1.000 S Sr++ charge= 2 ion size= 5.0 A b= 0.0000 mole wt.= 87.6200 g 1 elements in species 1.000 Sr Succinate-- formula= (CH2)2(COO)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 116.0732 g 3 elements in species 4.000 C 4.000 H 4.000 O Tartrate-- formula= C4H4O6-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 148.0720 g 3 elements in species 4.000 C 4.000 H 6.000 O Tb+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 158.9250 g 1 elements in species 1.000 Tb Th++++ charge= 4 ion size= 0.0 A b= 0.0000 mole wt.= 232.0400 g 1 elements in species 1.000 Th Ti(OH)4 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 115.9292 g 3 elements in species 4.000 H 4.000 O 1.000 Ti Tl(OH)3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 255.3919 g 3 elements in species 3.000 H 3.000 O 1.000 Tl Tm+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 168.9340 g 1 elements in species 1.000 Tm TriMeAm formula= (CH3)3N charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 59.1108 g 3 elements in species 3.000 C 9.000 H 1.000 N Ts1-Fer charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 0.0000 g 0 elements in species UO2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 270.0278 g 2 elements in species 2.000 O 1.000 U Valerate- formula= CH3(CH2)3COO- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 101.1249 g 3 elements in species 5.000 C 9.000 H 2.000 O WO4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 247.8476 g 2 elements in species 4.000 O 1.000 W Y+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 88.9100 g 1 elements in species 1.000 Y Yb+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 173.0400 g 1 elements in species 1.000 Yb Zn++ charge= 2 ion size= 6.0 A b= 0.0000 mole wt.= 65.3699 g 1 elements in species 1.000 Zn Zr++++ charge= 4 ion size= 0.0 A b= 0.0000 mole wt.= 91.2240 g 1 elements in species 1.000 Zr -end- 22 redox couples Co++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 58.9332 g 4 species in reaction 1.000 Co+++ -1.000 H+ -.250 O2(aq) .500 H2O -8.6178 -9.7984 -10.8800 -12.0639 -13.1396 -14.1212 -15.0207 -15.8478 * Weight read from thermo.mdb (0) does not match weight computed from * components (58.9332) -- using weight computed from components. * logK= -10.880000 deltaH= -141.084693 kJ Cr(OH)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 86.0106 g 4 species in reaction 1.000 CrO4-- 3.000 H+ -.750 O2(aq) -.500 H2O 2.3190 -.3609 -2.8160 -5.5034 -7.9452 -10.1734 -12.2150 -14.0925 * Weight read from thermo.mdb (0) does not match weight computed from * components (86.0106) -- using weight computed from components. * logK= -2.816000 deltaH= -320.254079 kJ Cr++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 51.9960 g 4 species in reaction 1.000 CrO4-- 4.000 H+ -1.000 O2(aq) -2.000 H2O 23.2561 19.3425 15.7570 11.8323 8.2664 5.0122 2.0306 -.7112 * Weight read from thermo.mdb (0) does not match weight computed from * components (51.996) -- using weight computed from components. * logK= 15.757000 deltaH= -467.698772 kJ Cu+ charge= 1 ion size= 2.5 A b= 0.0000 mole wt.= 63.5460 g 4 species in reaction 1.000 Cu++ -1.000 H+ -.250 O2(aq) .500 H2O 21.2028 19.9645 18.8300 17.5882 16.4599 15.4302 14.4868 13.6193 * Weight read from thermo.mdb (0) does not match weight computed from * components (63.546) -- using weight computed from components. * logK= 18.830000 deltaH= -147.984693 kJ Fe++ charge= 2 ion size= 6.0 A b= 0.0000 mole wt.= 55.8470 g 4 species in reaction 1.000 Fe+++ -1.000 H+ -.250 O2(aq) .500 H2O 10.0655 9.2422 8.4880 7.6624 6.9123 6.2277 5.6005 5.0238 * Weight read from thermo.mdb (0) does not match weight computed from * components (55.847) -- using weight computed from components. * logK= 8.488000 deltaH= -98.384693 kJ H3AsO3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 125.9435 g 3 species in reaction 3.000 H+ 1.000 AsO4--- -.500 O2(aq) 5.3510 4.1517 3.0530 1.8503 .7576 -.2396 -1.1532 -1.9934 * Weight read from thermo.mdb (0) does not match weight computed from * components (125.9435) -- using weight computed from components. * logK= 3.053000 deltaH= -143.319386 kJ Hg2++ charge= 2 ion size= 4.0 A b= 0.0000 mole wt.= 401.1800 g 4 species in reaction 2.000 H+ -.500 O2(aq) 2.000 Hg(OH)2 -3.000 H2O 3.3597 1.5307 -.1450 -1.9792 -3.6457 -5.1666 -6.5600 -7.8414 * Weight read from thermo.mdb (0) does not match weight computed from * components (401.18) -- using weight computed from components. * logK= -0.145000 deltaH= -218.579386 kJ HS- charge= -1 ion size= 3.5 A b= 0.0000 mole wt.= 33.0719 g 3 species in reaction 1.000 H+ -2.000 O2(aq) 1.000 SO4-- 155.6329 146.6916 138.5000 129.5333 121.3864 113.9517 107.1398 100.8755 * Weight read from thermo.mdb (0) does not match weight computed from * components (33.0719) -- using weight computed from components. * logK= 138.500000 deltaH= -1068.537544 kJ HSe- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 79.9679 g 3 species in reaction 1.000 H+ -2.000 O2(aq) 1.000 SeO4-- 105.8632 98.1022 90.9920 83.2090 76.1376 69.6844 63.7717 58.3344 * Weight read from thermo.mdb (0) does not match weight computed from * components (79.9679) -- using weight computed from components. * logK= 90.992000 deltaH= -927.477544 kJ HSeO3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 127.9661 g 3 species in reaction 1.000 H+ -.500 O2(aq) 1.000 SeO4-- 8.0303 7.3527 6.7320 6.0525 5.4352 4.8718 4.3557 3.8810 * Weight read from thermo.mdb (0) does not match weight computed from * components (127.9661) -- using weight computed from components. * logK= 6.732000 deltaH= -80.969386 kJ Mn++ charge= 2 ion size= 6.0 A b= 0.0000 mole wt.= 54.9380 g 4 species in reaction -1.000 H+ -.250 O2(aq) 1.000 Mn+++ .500 H2O -3.2963 -3.5748 -3.8300 -4.1093 -4.3631 -4.5947 -4.8069 -5.0020 * Weight read from thermo.mdb (0) does not match weight computed from * components (54.938) -- using weight computed from components. * logK= -3.830000 deltaH= -33.284693 kJ Np++++ charge= 4 ion size= 0.0 A b= 0.0000 mole wt.= 237.0482 g 4 species in reaction 3.000 H+ -.250 O2(aq) 1.000 NpO2+ -1.500 H2O 13.7122 12.5316 11.4500 10.2661 9.1904 8.2088 7.3093 6.4822 * Weight read from thermo.mdb (0) does not match weight computed from * components (237.0482) -- using weight computed from components. * logK= 11.450000 deltaH= -141.084693 kJ Pu+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 244.0000 g 4 species in reaction 1.000 H+ 1.000 PuO2++ -.750 O2(aq) -.500 H2O 21.2065 17.6647 14.4200 10.8682 7.6412 4.6963 1.9980 -.4833 * Weight read from thermo.mdb (0) does not match weight computed from * components (244) -- using weight computed from components. * logK= 14.420000 deltaH= -423.254079 kJ Pu++++ charge= 4 ion size= 0.0 A b= 0.0000 mole wt.= 244.0000 g 4 species in reaction 2.000 H+ 1.000 PuO2++ -.500 O2(aq) -1.000 H2O 15.0743 12.7132 10.5500 8.1822 6.0308 4.0675 2.2687 .6145 * Weight read from thermo.mdb (0) does not match weight computed from * components (244) -- using weight computed from components. * logK= 10.550000 deltaH= -282.169386 kJ PuO2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 275.9988 g 4 species in reaction -1.000 H+ 1.000 PuO2++ -.250 O2(aq) .500 H2O 7.9222 6.7416 5.6600 4.4761 3.4004 2.4188 1.5193 .6922 * Weight read from thermo.mdb (0) does not match weight computed from * components (275.9988) -- using weight computed from components. * logK= 5.660000 deltaH= -141.084693 kJ Sb(OH)3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 172.7719 g 4 species in reaction 1.000 Sb(OH)6- 1.000 H+ -.500 O2(aq) -2.000 H2O 23.2543 20.8932 18.7300 16.3622 14.2108 12.2475 10.4487 8.7945 * Weight read from thermo.mdb (0) does not match weight computed from * components (172.7719) -- using weight computed from components. * logK= 18.730000 deltaH= -282.169386 kJ Sn(OH)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 152.7046 g 4 species in reaction 2.000 H+ -.500 O2(aq) 1.000 Sn(OH)6-- -3.000 H2O 28.3643 26.0032 23.8400 21.4722 19.3208 17.3575 15.5587 13.9045 * Weight read from thermo.mdb (0) does not match weight computed from * components (152.7046) -- using weight computed from components. * logK= 23.840000 deltaH= -282.169386 kJ Tl+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 204.3700 g 4 species in reaction 1.000 Tl(OH)3 1.000 H+ -.500 O2(aq) -2.000 H2O 2.0143 -.3468 -2.5100 -4.8778 -7.0292 -8.9925 -10.7913 -12.4455 * Weight read from thermo.mdb (0) does not match weight computed from * components (204.37) -- using weight computed from components. * logK= -2.510000 deltaH= -282.169386 kJ U++++ charge= 4 ion size= 0.0 A b= 0.0000 mole wt.= 238.0290 g 4 species in reaction 2.000 H+ 1.000 UO2++ -.500 O2(aq) -1.000 H2O 36.0378 34.8825 33.8240 32.6654 31.6127 30.6520 29.7718 28.9624 * Weight read from thermo.mdb (0) does not match weight computed from * components (238.029) -- using weight computed from components. * logK= 33.824000 deltaH= -138.069386 kJ V++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 50.9415 g 4 species in reaction 4.000 H+ -.750 O2(aq) -2.500 H2O 1.000 HVO4-- 34.9126 32.9197 31.0940 29.0955 27.2797 25.6227 24.1045 22.7083 * Weight read from thermo.mdb (0) does not match weight computed from * components (50.9415) -- using weight computed from components. * logK= 31.094000 deltaH= -238.154079 kJ V+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 50.9415 g 4 species in reaction 5.000 H+ -.500 O2(aq) -3.000 H2O 1.000 HVO4-- 6.8204 6.0082 5.2640 4.4494 3.7093 3.0340 2.4151 1.8461 * Weight read from thermo.mdb (0) does not match weight computed from * components (50.9415) -- using weight computed from components. * logK= 5.264000 deltaH= -97.069386 kJ VO++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 66.9409 g 4 species in reaction 4.000 H+ -.250 O2(aq) -2.500 H2O 1.000 HVO4-- -11.2657 -10.8974 -10.5600 -10.1906 -9.8551 -9.5488 -9.2682 -9.0102 * Weight read from thermo.mdb (0) does not match weight computed from * components (66.9409) -- using weight computed from components. * logK= -10.560000 deltaH= 44.015307 kJ -end- 3232 aqueous species (NpO2)2(OH)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 572.1086 g 3 species in reaction 2.000 NpO2++ -2.000 H+ 2.000 H2O 6.3840 6.3840 6.3840 6.3840 6.3840 6.3840 6.3840 6.3840 * logK= 6.384000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C (NpO2)3(OH)5+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 892.1775 g 3 species in reaction 3.000 NpO2++ -5.000 H+ 5.000 H2O 17.4750 17.4750 17.4750 17.4750 17.4750 17.4750 17.4750 17.4750 * logK= 17.475000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C (UO2)2(EDTA)2---- formula= (UO2)2(C10H12N2O8)2---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 1116.4824 g 2 species in reaction 2.000 UO2++ 2.000 EDTA---- -29.3300 -29.3300 -29.3300 -29.3300 -29.3300 -29.3300 -29.3300 -29.3300 * logK= -29.330000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C (UO2)2(OH)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 574.0702 g 3 species in reaction -2.000 H+ 2.000 UO2++ 2.000 H2O 6.4041 5.9949 5.6200 5.2097 4.8368 4.4966 4.1848 3.8982 * logK= 5.620000 deltaH= -48.900000 kJ (UO2)2(OH)2-(Phthalate)2-- formula= (UO2)2(OH)2[C6H4(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 902.3046 g 4 species in reaction 2.000 Phthalate-- -2.000 H+ 2.000 UO2++ 2.000 H2O -3.4360 -3.4360 -3.4360 -3.4360 -3.4360 -3.4360 -3.4360 -3.4360 * logK= -3.436000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C (UO2)2CO3(OH)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 651.0867 g 4 species in reaction -3.000 H+ 2.000 UO2++ 1.000 CO3-- 3.000 H2O .8610 .8610 .8610 .8610 .8610 .8610 .8610 .8610 * logK= 0.861000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C (UO2)2EDTA (aq) formula= (UO2)2(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 828.2690 g 2 species in reaction 2.000 UO2++ 1.000 EDTA---- -20.4300 -20.4300 -20.4300 -20.4300 -20.4300 -20.4300 -20.4300 -20.4300 * logK= -20.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C (UO2)2OH+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 557.0629 g 3 species in reaction -1.000 H+ 2.000 UO2++ 1.000 H2O 2.7000 2.7000 2.7000 2.7000 2.7000 2.7000 2.7000 2.7000 * logK= 2.700000 deltaH= 0.000000 kJ (UO2)2OHEDTA- formula= (UO2)2OH(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 845.2763 g 4 species in reaction -1.000 H+ 2.000 UO2++ 1.000 EDTA---- 1.000 H2O -15.4230 -15.4230 -15.4230 -15.4230 -15.4230 -15.4230 -15.4230 -15.4230 * logK= -15.423000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C (UO2)3(CO3)6------ charge= -6 ion size= 0.0 A b= 0.0000 mole wt.= 1170.1386 g 2 species in reaction 3.000 UO2++ 6.000 CO3-- -55.0053 -54.4807 -54.0000 -53.4739 -52.9958 -52.5595 -52.1598 -51.7923 * logK= -54.000000 deltaH= 62.700000 kJ (UO2)3(OH)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 878.1126 g 3 species in reaction -4.000 H+ 3.000 UO2++ 4.000 H2O 11.9000 11.9000 11.9000 11.9000 11.9000 11.9000 11.9000 11.9000 * logK= 11.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C (UO2)3(OH)5+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 895.1199 g 3 species in reaction -5.000 H+ 3.000 UO2++ 5.000 H2O 17.5222 16.4929 15.5500 14.5178 13.5800 12.7242 11.9401 11.2190 * logK= 15.550000 deltaH= -123.000000 kJ (UO2)3(OH)7- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 929.1345 g 3 species in reaction -7.000 H+ 3.000 UO2++ 7.000 H2O 32.2000 32.2000 32.2000 32.2000 32.2000 32.2000 32.2000 32.2000 * logK= 32.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C (UO2)3CO3(OH)3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 921.1145 g 4 species in reaction -3.000 H+ 3.000 UO2++ 1.000 CO3-- 3.000 H2O -.6490 -.6490 -.6490 -.6490 -.6490 -.6490 -.6490 -.6490 * logK= -0.649000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C (UO2)4(OH)7+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 1199.1623 g 3 species in reaction -7.000 H+ 4.000 UO2++ 7.000 H2O 21.9000 21.9000 21.9000 21.9000 21.9000 21.9000 21.9000 21.9000 * logK= 21.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ag(CN)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 159.9034 g 2 species in reaction 1.000 Ag+ 2.000 CN- -22.6767 -21.5303 -20.4800 -19.3304 -18.2858 -17.3326 -16.4592 -15.6561 * logK= -20.480000 deltaH= 137.000000 kJ Ag(CN)3-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 185.9211 g 2 species in reaction 1.000 Ag+ 3.000 CN- -23.9448 -22.7733 -21.7000 -20.5252 -19.4578 -18.4837 -17.5912 -16.7704 * logK= -21.700000 deltaH= 140.000000 kJ Ag(CN)OH- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 150.8930 g 4 species in reaction -1.000 H+ 1.000 H2O 1.000 Ag+ 1.000 CN- .7800 .7800 .7800 .7800 .7800 .7800 .7800 .7800 * logK= 0.780000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ag(HS)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 174.0118 g 2 species in reaction 2.000 HS- 1.000 Ag+ -17.9100 -17.9100 -17.9100 -17.9100 -17.9100 -17.9100 -17.9100 -17.9100 * logK= -17.910000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ag(HS)S4-- charge= -2 ion size= 15.0 A b= 0.0000 mole wt.= 269.1959 g 4 species in reaction -1.000 H+ 2.000 HS- 3.000 S 1.000 Ag+ -10.4310 -10.4310 -10.4310 -10.4310 -10.4310 -10.4310 -10.4310 -10.4310 * logK= -10.431000 deltaH= 0.000000 kJ Ag(NH3)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 141.9288 g 3 species in reaction -2.000 H+ 2.000 NH4+ 1.000 Ag+ 12.0396 11.6380 11.2700 10.8672 10.5012 10.1673 9.8613 9.5799 * logK= 11.270000 deltaH= -48.000000 kJ Ag(NO2)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 199.8790 g 2 species in reaction 1.000 Ag+ 2.000 NO2- -3.2476 -2.8626 -2.5100 -2.1240 -1.7733 -1.4532 -1.1600 -.8903 * logK= -2.510000 deltaH= 46.000000 kJ Ag(OH)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 141.8826 g 3 species in reaction -2.000 H+ 2.000 H2O 1.000 Ag+ 24.0040 24.0040 24.0040 24.0040 24.0040 24.0040 24.0040 24.0040 * logK= 24.004000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ag(S2O3)2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 332.1204 g 2 species in reaction 2.000 S2O3-- 1.000 Ag+ -14.6925 -14.1745 -13.7000 -13.1806 -12.7086 -12.2779 -11.8833 -11.5204 * logK= -13.700000 deltaH= 61.900000 kJ Ag(S2O3)3----- charge= -5 ion size= 0.0 A b= 0.0000 mole wt.= 444.2466 g 2 species in reaction 3.000 S2O3-- 1.000 Ag+ -11.5700 -11.5700 -11.5700 -11.5700 -11.5700 -11.5700 -11.5700 -11.5700 * logK= -11.570000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ag(S4)2--- charge= -3 ion size= 22.0 A b= 0.0000 mole wt.= 364.3800 g 4 species in reaction -2.000 H+ 2.000 HS- 6.000 S 1.000 Ag+ -.9910 -.9910 -.9910 -.9910 -.9910 -.9910 -.9910 -.9910 * logK= -0.991000 deltaH= 0.000000 kJ Ag(SCN)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 224.0314 g 2 species in reaction 2.000 SCN- 1.000 Ag+ -8.2300 -8.2300 -8.2300 -8.2300 -8.2300 -8.2300 -8.2300 -8.2300 * logK= -8.230000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ag(SCN)3-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 282.1131 g 2 species in reaction 3.000 SCN- 1.000 Ag+ -9.5000 -9.5000 -9.5000 -9.5000 -9.5000 -9.5000 -9.5000 -9.5000 * logK= -9.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ag(SCN)4--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 340.1948 g 2 species in reaction 4.000 SCN- 1.000 Ag+ -9.7000 -9.7000 -9.7000 -9.7000 -9.7000 -9.7000 -9.7000 -9.7000 * logK= -9.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ag(SeO3)2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 361.7844 g 3 species in reaction -2.000 H+ 2.000 HSeO3- 1.000 Ag+ 13.0400 13.0400 13.0400 13.0400 13.0400 13.0400 13.0400 13.0400 * logK= 13.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ag(SO3)2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 267.9924 g 2 species in reaction 1.000 Ag+ 2.000 SO3-- -8.6800 -8.6800 -8.6800 -8.6800 -8.6800 -8.6800 -8.6800 -8.6800 * logK= -8.680000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ag(SO3)3----- charge= -5 ion size= 0.0 A b= 0.0000 mole wt.= 348.0546 g 2 species in reaction 1.000 Ag+ 3.000 SO3-- -9.0000 -9.0000 -9.0000 -9.0000 -9.0000 -9.0000 -9.0000 -9.0000 * logK= -9.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ag-(Acetate)2- formula= Ag(CH3COO)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 225.9570 g 2 species in reaction 2.000 Acetate- 1.000 Ag+ -.5919 -.6170 -.6400 -.6652 -.6880 -.7089 -.7280 -.7456 * logK= -0.640000 deltaH= -3.000000 kJ Ag-(Glycine)2- formula= Ag[NH2CH2COO]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 255.9862 g 2 species in reaction 2.000 Glycine- 1.000 Ag+ -7.6612 -7.2587 -6.8900 -6.4864 -6.1196 -5.7850 -5.4783 -5.1963 * logK= -6.890000 deltaH= 48.100000 kJ Ag-Acetate (aq) formula= Ag(CH3COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 166.9125 g 2 species in reaction 1.000 Acetate- 1.000 Ag+ -.6819 -.7070 -.7300 -.7552 -.7780 -.7989 -.8180 -.8356 * logK= -0.730000 deltaH= -3.000000 kJ Ag-Benzoate (aq) formula= Ag(C6H5COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 228.9833 g 2 species in reaction 1.000 Benzoate- 1.000 Ag+ -.9100 -.9100 -.9100 -.9100 -.9100 -.9100 -.9100 -.9100 * logK= -0.910000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ag-DTPA---- formula= Ag(C14H18N3O10)---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 496.1783 g 2 species in reaction 1.000 DTPA----- 1.000 Ag+ -9.7400 -9.7400 -9.7400 -9.7400 -9.7400 -9.7400 -9.7400 -9.7400 * logK= -9.740000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ag-Glutamate- formula= Ag(C5H7NO4)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 252.9826 g 2 species in reaction 1.000 Glutamate-- 1.000 Ag+ -4.2200 -4.2200 -4.2200 -4.2200 -4.2200 -4.2200 -4.2200 -4.2200 * logK= -4.220000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ag-Glycine (aq) formula= Ag[NH2CH2COO] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 181.9271 g 2 species in reaction 1.000 Glycine- 1.000 Ag+ -3.8146 -3.6557 -3.5100 -3.3506 -3.2057 -3.0735 -2.9524 -2.8410 * logK= -3.510000 deltaH= 19.000000 kJ Ag-HEDTA-- formula= Ag(C10H15N2O7)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 383.1057 g 2 species in reaction 1.000 Ag+ 1.000 HEDTA--- -7.3100 -7.3100 -7.3100 -7.3100 -7.3100 -7.3100 -7.3100 -7.3100 * logK= -7.310000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ag-Oxalate- formula= Ag[(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 195.8876 g 2 species in reaction 1.000 Oxalate-- 1.000 Ag+ -2.8200 -2.8200 -2.8200 -2.8200 -2.8200 -2.8200 -2.8200 -2.8200 * logK= -2.820000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ag2[Ethylenediamine]++ formula= Ag2[C2H4(NH2)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 275.8346 g 2 species in reaction 2.000 Ag+ 1.000 EtDiAm -6.5000 -6.5000 -6.5000 -6.5000 -6.5000 -6.5000 -6.5000 -6.5000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -6.500000 deltaH= 0.000000 kJ Ag2[Ethylenediamine]2++ formula= Ag2[C2H4(NH2)2]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 335.9332 g 2 species in reaction 2.000 Ag+ 2.000 EtDiAm -14.2564 -13.4441 -12.7000 -11.8854 -11.1454 -10.4700 -9.8512 -9.2821 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -12.700000 deltaH= 97.068800 kJ Ag2MoO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 375.6736 g 2 species in reaction 1.000 MoO4-- 2.000 Ag+ .4030 .4129 .4219 .4318 .4408 .4490 .4565 .4634 * logK= 0.421900 deltaH= 1.180000 kJ Ag2Se(aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 294.6960 g 4 species in reaction -1.000 H+ 1.000 HSe- 0.000 H2O 2.000 Ag+ -34.9110 -34.9110 -34.9110 -34.9110 -34.9110 -34.9110 -34.9110 -34.9110 * logK= -34.911000 deltaH= 0.000000 kJ Ag[2-Picoline]+ formula= Ag(C6H7N)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 200.9960 g 2 species in reaction 1.000 2Picol 1.000 Ag+ -2.7091 -2.5060 -2.3200 -2.1164 -1.9313 -1.7625 -1.6078 -1.4655 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -2.320000 deltaH= 24.267200 kJ Ag[2-Picoline]2+ formula= Ag(C6H7N)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 294.1240 g 2 species in reaction 2.000 2Picol 1.000 Ag+ -5.3643 -5.0072 -4.6800 -4.3219 -3.9965 -3.6996 -3.4275 -3.1773 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -4.680000 deltaH= 42.676800 kJ Ag[3-Picoline]+ formula= Ag(C6H7N)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 200.9960 g 2 species in reaction 1.000 3Picol 1.000 Ag+ -2.5488 -2.3668 -2.2000 -2.0174 -1.8515 -1.7002 -1.5615 -1.4339 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -2.200000 deltaH= 21.756800 kJ Ag[3-Picoline]2+ formula= Ag(C6H7N)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 294.1240 g 2 species in reaction 2.000 3Picol 1.000 Ag+ -5.2583 -4.8417 -4.4600 -4.0422 -3.6626 -3.3161 -2.9987 -2.7068 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -4.460000 deltaH= 49.789600 kJ Ag[4-Picoline]+ formula= Ag(C6H7N)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 200.9960 g 2 species in reaction 1.000 4Picol 1.000 Ag+ -2.4392 -2.2257 -2.0300 -1.8158 -1.6212 -1.4437 -1.2810 -1.1313 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -2.030000 deltaH= 25.522400 kJ Ag[4-Picoline]2+ formula= Ag(C6H7N)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 294.1240 g 2 species in reaction 2.000 4Picol 1.000 Ag+ -5.2487 -4.8006 -4.3900 -3.9406 -3.5323 -3.1596 -2.8182 -2.5043 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -4.390000 deltaH= 53.555200 kJ Ag[Butylamine]+ formula= Ag(C4H11N)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 181.0056 g 2 species in reaction 1.000 BuAm 1.000 Ag+ -3.6883 -3.5483 -3.4200 -3.2796 -3.1520 -3.0355 -2.9288 -2.8307 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -3.420000 deltaH= 16.736000 kJ Ag[Butylamine]2+ formula= Ag(C4H11N)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 254.1432 g 2 species in reaction 2.000 BuAm 1.000 Ag+ -8.3153 -7.8741 -7.4700 -7.0276 -6.6257 -6.2589 -5.9228 -5.6137 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -7.470000 deltaH= 52.718400 kJ Ag[Diethylamine]+ formula= Ag[(CH3CH2)2NH]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 181.0056 g 2 species in reaction 1.000 DiEtAm 1.000 Ag+ -2.9800 -2.9800 -2.9800 -2.9800 -2.9800 -2.9800 -2.9800 -2.9800 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -2.980000 deltaH= 0.000000 kJ Ag[Diethylamine]2+ formula= Ag[(CH3CH2)2NH]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 254.1432 g 2 species in reaction 2.000 DiEtAm 1.000 Ag+ -7.0978 -6.7232 -6.3800 -6.0043 -5.6630 -5.3515 -5.0661 -4.8036 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -6.380000 deltaH= 44.768800 kJ Ag[Dimethylamine]2+ formula= Ag[(CH3)2NH]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 198.0360 g 2 species in reaction 2.000 DiMeAm 1.000 Ag+ -6.0207 -5.6811 -5.3700 -5.0294 -4.7200 -4.4376 -4.1789 -3.9410 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -5.370000 deltaH= 40.584800 kJ Ag[Ethylenediamine]+ formula= Ag[C2H4(NH2)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 167.9666 g 2 species in reaction 1.000 Ag+ 1.000 EtDiAm -5.3849 -4.9753 -4.6000 -4.1892 -3.8160 -3.4754 -3.1633 -2.8763 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -4.600000 deltaH= 48.952800 kJ Ag[Ethylenediamine]2+ formula= Ag[C2H4(NH2)2]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 228.0652 g 2 species in reaction 1.000 Ag+ 2.000 EtDiAm -8.3386 -7.9009 -7.5000 -7.0611 -6.6624 -6.2985 -5.9651 -5.6585 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -7.500000 deltaH= 52.300000 kJ Ag[HEthylenediamine]2+++ formula= Ag[C2H4(NH2)2]2+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 230.0810 g 3 species in reaction 2.000 H+ 1.000 Ag+ 2.000 EtDiAm -26.4084 -25.1515 -24.0000 -22.7395 -21.5943 -20.5492 -19.5917 -18.7111 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(3) -- using charge field value. * logK= -24.000000 deltaH= 150.205600 kJ Ag[Hexylamine]+ formula= Ag(C6H15N)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 209.0592 g 2 species in reaction 1.000 HexylAm 1.000 Ag+ -3.9425 -3.7325 -3.5400 -3.3293 -3.1379 -2.9633 -2.8032 -2.6561 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -3.540000 deltaH= 25.104000 kJ Ag[Hexylamine]2+ formula= Ag(C6H15N)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 310.2504 g 2 species in reaction 2.000 HexylAm 1.000 Ag+ -8.4020 -7.9574 -7.5500 -7.1041 -6.6990 -6.3292 -5.9905 -5.6790 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -7.550000 deltaH= 53.136800 kJ Ag[Isopropylamine]+ formula= Ag[(CH3)2CHNH2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 166.9788 g 2 species in reaction 1.000 Ag+ 1.000 iPrAm -4.0524 -3.8528 -3.6700 -3.4699 -3.2880 -3.1221 -2.9701 -2.8303 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -3.670000 deltaH= 23.848800 kJ Ag[Isopropylamine]2+ formula= Ag[(CH3)2CHNH2]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 226.0896 g 2 species in reaction 1.000 Ag+ 2.000 iPrAm -8.7293 -8.2287 -7.7700 -7.2679 -6.8117 -6.3955 -6.0140 -5.6633 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -7.770000 deltaH= 59.831200 kJ Ag[Methylamine]+ formula= Ag(CH3NH2)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 138.9252 g 2 species in reaction 1.000 MeAm 1.000 Ag+ -3.2713 -3.1662 -3.0700 -2.9647 -2.8690 -2.7816 -2.7016 -2.6280 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -3.070000 deltaH= 12.552000 kJ Ag[Methylamine]2+ formula= Ag(CH3NH2)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 169.9824 g 2 species in reaction 2.000 MeAm 1.000 Ag+ -7.6749 -7.2653 -6.8900 -6.4792 -6.1060 -5.7654 -5.4533 -5.1663 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -6.890000 deltaH= 48.952800 kJ Ag[Propylamine]+ formula= Ag[CH3(CH2)2NH2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 166.9788 g 2 species in reaction 1.000 PrAm 1.000 Ag+ -3.6513 -3.5462 -3.4500 -3.3447 -3.2490 -3.1616 -3.0816 -3.0080 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -3.450000 deltaH= 12.552000 kJ Ag[Propylamine]2+ formula= Ag[CH3(CH2)2NH2]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 226.0896 g 2 species in reaction 2.000 PrAm 1.000 Ag+ -8.2920 -7.8474 -7.4400 -6.9941 -6.5890 -6.2192 -5.8805 -5.5690 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -7.440000 deltaH= 53.136800 kJ Ag[Trimetylamine]+ formula= Ag[(CH3)3N]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 166.9788 g 2 species in reaction 1.000 TriMeAm 1.000 Ag+ -1.7010 -1.7010 -1.7010 -1.7010 -1.7010 -1.7010 -1.7010 -1.7010 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -1.701000 deltaH= 0.000000 kJ AgBr (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 187.7720 g 2 species in reaction 1.000 Br- 1.000 Ag+ -4.6000 -4.6000 -4.6000 -4.6000 -4.6000 -4.6000 -4.6000 -4.6000 * logK= -4.600000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AgBr2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 267.6760 g 2 species in reaction 2.000 Br- 1.000 Ag+ -7.5000 -7.5000 -7.5000 -7.5000 -7.5000 -7.5000 -7.5000 -7.5000 * logK= -7.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AgBr3-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 347.5800 g 2 species in reaction 3.000 Br- 1.000 Ag+ -8.1000 -8.1000 -8.1000 -8.1000 -8.1000 -8.1000 -8.1000 -8.1000 * logK= -8.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AgBr4--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 427.4840 g 2 species in reaction 4.000 Br- 1.000 Ag+ -8.7000 -8.7000 -8.7000 -8.7000 -8.7000 -8.7000 -8.7000 -8.7000 * logK= -8.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AgCl (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 143.3210 g 2 species in reaction 1.000 Cl- 1.000 Ag+ -3.5024 -3.4020 -3.3100 -3.2093 -3.1178 -3.0343 -2.9578 -2.8875 * logK= -3.310000 deltaH= 12.000000 kJ AgCl2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 178.7740 g 2 species in reaction 2.000 Cl- 1.000 Ag+ -5.5065 -5.3727 -5.2500 -5.1157 -4.9937 -4.8824 -4.7804 -4.6866 * logK= -5.250000 deltaH= 16.000000 kJ AgCl3-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 214.2270 g 2 species in reaction 3.000 Cl- 1.000 Ag+ -5.8093 -5.4913 -5.2000 -4.8811 -4.5914 -4.3270 -4.0847 -3.8620 * logK= -5.200000 deltaH= 38.000000 kJ AgClO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 207.3186 g 2 species in reaction 1.000 ClO4- 1.000 Ag+ .1000 .1000 .1000 .1000 .1000 .1000 .1000 .1000 * logK= 0.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AgEDTA--- formula= Ag(C10H12N2O8)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 396.0814 g 2 species in reaction 1.000 EDTA---- 1.000 Ag+ -8.5471 -8.2877 -8.0500 -7.7899 -7.5535 -7.3378 -7.1402 -6.9585 * logK= -8.050000 deltaH= 31.000000 kJ AgEGTA--- formula= Ag(C14H20N2O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 484.1874 g 2 species in reaction 1.000 EGTA---- 1.000 Ag+ -7.9000 -7.9000 -7.9000 -7.9000 -7.9000 -7.9000 -7.9000 -7.9000 * logK= -7.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AgF (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 126.8664 g 2 species in reaction 1.000 F- 1.000 Ag+ -.5924 -.4920 -.4000 -.2993 -.2078 -.1243 -.0478 .0225 * logK= -0.400000 deltaH= 12.000000 kJ AgH-DTPA--- formula= AgH(C14H18N3O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 497.1862 g 3 species in reaction 1.000 H+ 1.000 DTPA----- 1.000 Ag+ -18.4600 -18.4600 -18.4600 -18.4600 -18.4600 -18.4600 -18.4600 -18.4600 * logK= -18.460000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AgH2-DTPA-- formula= AgH2(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 498.1941 g 3 species in reaction 2.000 H+ 1.000 DTPA----- 1.000 Ag+ -24.1800 -24.1800 -24.1800 -24.1800 -24.1800 -24.1800 -24.1800 -24.1800 * logK= -24.180000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AgH2BO3 (aq) charge= 0 ion size= 2.5 A b= 0.0000 mole wt.= 168.6920 g 3 species in reaction 1.000 H3BO3 -1.000 H+ 1.000 Ag+ 8.0400 8.0400 8.0400 8.0400 8.0400 8.0400 8.0400 8.0400 * logK= 8.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AgH[Ethylenediamine]++ formula= AgH[C2H4(NH2)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 168.9745 g 3 species in reaction 1.000 H+ 1.000 Ag+ 1.000 EtDiAm -13.1976 -12.5674 -11.9900 -11.3580 -10.7838 -10.2598 -9.7797 -9.3382 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -11.990000 deltaH= 75.312000 kJ AgH[Ethylenediamine]2++ formula= AgH[C2H4(NH2)2]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 229.0731 g 3 species in reaction 1.000 H+ 1.000 Ag+ 2.000 EtDiAm -9.1648 -8.7657 -8.4000 -7.9997 -7.6361 -7.3042 -7.0001 -6.7205 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -8.400000 deltaH= 47.697600 kJ AgHEDTA-- formula= AgH(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 397.0893 g 3 species in reaction 1.000 H+ 1.000 EDTA---- 1.000 Ag+ -14.7400 -14.7400 -14.7400 -14.7400 -14.7400 -14.7400 -14.7400 -14.7400 * logK= -14.740000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AgHEGTA-- formula= Ag(C14H20N2O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 485.1953 g 3 species in reaction 1.000 EGTA---- 1.000 H+ 1.000 Ag+ -16.1900 -16.1900 -16.1900 -16.1900 -16.1900 -16.1900 -16.1900 -16.1900 * logK= -16.190000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AgHNTA- formula= AgH[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 296.9924 g 3 species in reaction 1.000 NTA--- 1.000 H+ 1.000 Ag+ -13.0100 -13.0100 -13.0100 -13.0100 -13.0100 -13.0100 -13.0100 -13.0100 * logK= -13.010000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AgHS (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 140.9399 g 2 species in reaction 1.000 HS- 1.000 Ag+ -13.8200 -13.8200 -13.8200 -13.8200 -13.8200 -13.8200 -13.8200 -13.8200 * logK= -13.820000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AgHS2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 173.0039 g 3 species in reaction -1.000 H+ 2.000 HS- 1.000 Ag+ -8.5900 -8.5900 -8.5900 -8.5900 -8.5900 -8.5900 -8.5900 -8.5900 * logK= -8.590000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AgI (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 234.7724 g 2 species in reaction 1.000 I- 1.000 Ag+ -6.6000 -6.6000 -6.6000 -6.6000 -6.6000 -6.6000 -6.6000 -6.6000 * logK= -6.600000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AgI2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 361.6768 g 2 species in reaction 2.000 I- 1.000 Ag+ -11.7000 -11.7000 -11.7000 -11.7000 -11.7000 -11.7000 -11.7000 -11.7000 * logK= -11.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AgI3-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 488.5812 g 2 species in reaction 3.000 I- 1.000 Ag+ -14.5561 -13.5353 -12.6000 -11.5762 -10.6461 -9.7972 -9.0195 -8.3042 * logK= -12.600000 deltaH= 122.000000 kJ AgNH3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 124.8984 g 3 species in reaction -1.000 H+ 1.000 NH4+ 1.000 Ag+ 6.4431 6.1753 5.9300 5.6615 5.4175 5.1948 4.9908 4.8032 * logK= 5.930000 deltaH= -32.000000 kJ AgNO2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 153.8735 g 2 species in reaction 1.000 Ag+ 1.000 NO2- -2.7850 -2.5423 -2.3200 -2.0766 -1.8555 -1.6538 -1.4689 -1.2989 * logK= -2.320000 deltaH= 29.000000 kJ AgNO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 169.8729 g 2 species in reaction 1.000 NO3- 1.000 Ag+ .4624 .2733 .1000 -.0896 -.2620 -.4192 -.5633 -.6958 * logK= 0.100000 deltaH= -22.600000 kJ AgNTA-- formula= Ag[N(CH2COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 295.9845 g 2 species in reaction 1.000 NTA--- 1.000 Ag+ -6.0269 -5.8093 -5.6100 -5.3918 -5.1936 -5.0127 -4.8469 -4.6945 * logK= -5.610000 deltaH= 26.000000 kJ AgOCN (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 149.8851 g 2 species in reaction 1.000 OCN- 1.000 Ag+ -5.0000 -5.0000 -5.0000 -5.0000 -5.0000 -5.0000 -5.0000 -5.0000 * logK= -5.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AgOH (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 124.8753 g 3 species in reaction -1.000 H+ 1.000 H2O 1.000 Ag+ 11.9970 11.9970 11.9970 11.9970 11.9970 11.9970 11.9970 11.9970 * logK= 11.997000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AgOH(Se)2---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 282.7953 g 4 species in reaction -3.000 H+ 2.000 HSe- 1.000 H2O 1.000 Ag+ 20.5090 20.5090 20.5090 20.5090 20.5090 20.5090 20.5090 20.5090 * logK= 20.509000 deltaH= 0.000000 kJ AgS- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 139.9320 g 3 species in reaction -1.000 H+ 1.000 HS- 1.000 Ag+ -5.3000 -5.3000 -5.3000 -5.3000 -5.3000 -5.3000 -5.3000 -5.3000 * logK= -5.300000 deltaH= 0.000000 kJ AgS2O3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 219.9942 g 2 species in reaction 1.000 S2O3-- 1.000 Ag+ -10.9423 -10.4662 -10.0300 -9.5525 -9.1187 -8.7228 -8.3601 -8.0265 * logK= -10.030000 deltaH= 56.900000 kJ AgS4S5--- charge= -3 ion size= 24.0 A b= 0.0000 mole wt.= 396.4440 g 4 species in reaction -2.000 H+ 2.000 HS- 7.000 S 1.000 Ag+ -.6800 -.6800 -.6800 -.6800 -.6800 -.6800 -.6800 -.6800 * logK= -0.680000 deltaH= 0.000000 kJ AgSCN (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 165.9497 g 2 species in reaction 1.000 SCN- 1.000 Ag+ -6.1950 -5.4670 -4.8000 -4.0699 -3.4066 -2.8013 -2.2467 -1.7366 * logK= -4.800000 deltaH= 87.000000 kJ AgSeO3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 234.8262 g 3 species in reaction -1.000 H+ 1.000 HSeO3- 1.000 Ag+ 5.5900 5.5900 5.5900 5.5900 5.5900 5.5900 5.5900 5.5900 * logK= 5.590000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AgSO3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 187.9302 g 2 species in reaction 1.000 Ag+ 1.000 SO3-- -5.6000 -5.6000 -5.6000 -5.6000 -5.6000 -5.6000 -5.6000 -5.6000 * logK= -5.600000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AgSO4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 203.9296 g 2 species in reaction 1.000 Ag+ 1.000 SO4-- -1.2006 -1.2525 -1.3000 -1.3520 -1.3993 -1.4424 -1.4820 -1.5183 * logK= -1.300000 deltaH= -6.200000 kJ Al(OH)2+ charge= 1 ion size= 5.4 A b= 0.0000 mole wt.= 60.9961 g 3 species in reaction -2.000 H+ 1.000 Al+++ 2.000 H2O 12.2582 11.2331 10.2940 9.2660 8.3321 7.4797 6.6988 5.9806 * logK= 10.294000 deltaH= -122.500000 kJ Al(OH)2-(Sal)2--- formula= Al(OH)2(OC6H4COO)2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 333.2097 g 4 species in reaction -2.000 H+ 1.000 Al+++ 2.000 Sal-- 2.000 H2O -35.5200 -35.5200 -35.5200 -35.5200 -35.5200 -35.5200 -35.5200 -35.5200 * logK= -35.520000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al(OH)2-HEDTA-- formula= Al(OH)2(C10H15N2O7)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 336.2338 g 4 species in reaction -2.000 H+ 1.000 Al+++ 2.000 H2O 1.000 HEDTA--- -1.6100 -1.6100 -1.6100 -1.6100 -1.6100 -1.6100 -1.6100 -1.6100 * logK= -1.610000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al(OH)2-Lactate (aq) formula= Al(OH)2[CH3CH(OH)COO] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 150.0668 g 4 species in reaction 1.000 Lactate- -2.000 H+ 1.000 Al+++ 2.000 H2O 7.0300 7.0300 7.0300 7.0300 7.0300 7.0300 7.0300 7.0300 * logK= 7.030000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al(OH)2-Oxalate- formula= Al(OH)2[(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 149.0157 g 4 species in reaction -2.000 H+ 1.000 Al+++ 1.000 Oxalate-- 2.000 H2O 3.1200 3.1200 3.1200 3.1200 3.1200 3.1200 3.1200 3.1200 * logK= 3.120000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al(OH)2-Succinate- formula= Al(OH)2[(CH2)2(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 177.0693 g 4 species in reaction -2.000 H+ 1.000 Al+++ 2.000 H2O 1.000 Succinate-- 4.4800 4.4800 4.4800 4.4800 4.4800 4.4800 4.4800 4.4800 * logK= 4.480000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al(OH)2EDTA--- formula= Al(OH)2(C10H12N2O8)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 349.2095 g 4 species in reaction -2.000 H+ 1.000 Al+++ 1.000 EDTA---- 2.000 H2O -1.6860 -1.6860 -1.6860 -1.6860 -1.6860 -1.6860 -1.6860 -1.6860 * logK= -1.686000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al(OH)2NTA-- formula= Al(OH)2[N(CH2COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 249.1126 g 4 species in reaction 1.000 NTA--- -2.000 H+ 1.000 Al+++ 2.000 H2O .6800 .6800 .6800 .6800 .6800 .6800 .6800 .6800 * logK= 0.680000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al(OH)3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 78.0034 g 3 species in reaction -3.000 H+ 1.000 Al+++ 3.000 H2O 19.5178 18.0425 16.6910 15.2116 13.8674 12.6407 11.5168 10.4833 * logK= 16.691000 deltaH= -176.300000 kJ Al(OH)4- charge= -1 ion size= 4.5 A b= 0.0000 mole wt.= 95.0107 g 3 species in reaction -4.000 H+ 1.000 Al+++ 4.000 H2O 25.9342 24.4029 23.0000 21.4643 20.0691 18.7958 17.6292 16.5564 * logK= 23.000000 deltaH= -183.000000 kJ Al(SO4)2- charge= -1 ion size= 4.5 A b= 0.0000 mole wt.= 219.1047 g 2 species in reaction 1.000 Al+++ 2.000 SO4-- -4.9623 -5.3359 -5.5831 -5.8226 -6.0975 -6.4856 -7.0449 -7.8184 * logK= -5.580000 deltaH= -11.900000 kJ * analytic data = 4939.103 1.418846 -132438.8 -1985.24 0 0 0 Al-(Acetate)2+ formula= Al(CH3COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 145.0705 g 2 species in reaction 2.000 Acetate- 1.000 Al+++ -3.9426 -4.2857 -4.6000 -4.9441 -5.2567 -5.5419 -5.8033 -6.0437 * logK= -4.600000 deltaH= -41.000000 kJ Al-(Citrate)2--- formula= Al[C3H5O(COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 405.1841 g 2 species in reaction 1.000 Al+++ 2.000 Citrate--- -14.8300 -14.8300 -14.8300 -14.8300 -14.8300 -14.8300 -14.8300 -14.8300 * logK= -14.830000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al-(Formate)2+ formula= Al[HCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 117.0169 g 2 species in reaction 1.000 Al+++ 2.000 Formate- -3.0400 -3.0400 -3.0400 -3.0400 -3.0400 -3.0400 -3.0400 -3.0400 * logK= -3.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al-(Lactate)2+ formula= Al[CH3CH(OH)COO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 205.1229 g 2 species in reaction 2.000 Lactate- 1.000 Al+++ -5.8200 -5.8200 -5.8200 -5.8200 -5.8200 -5.8200 -5.8200 -5.8200 * logK= -5.820000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al-(Lactate)3 (aq) formula= Al[CH3CH(OH)COO]3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 294.1936 g 2 species in reaction 3.000 Lactate- 1.000 Al+++ -7.4500 -7.4500 -7.4500 -7.4500 -7.4500 -7.4500 -7.4500 -7.4500 * logK= -7.450000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al-(Malonate)2- formula= Al[CH2(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 231.0743 g 2 species in reaction 2.000 Malonate-- 1.000 Al+++ -12.0909 -12.3670 -12.6200 -12.8969 -13.1485 -13.3781 -13.5885 -13.7820 * logK= -12.620000 deltaH= -33.000000 kJ Al-(Malonate)3--- formula= Al[CH2(COO)2]3--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 333.1207 g 2 species in reaction 3.000 Malonate-- 1.000 Al+++ -14.8900 -14.8900 -14.8900 -14.8900 -14.8900 -14.8900 -14.8900 -14.8900 * logK= -14.890000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al-(Oxalate)2- formula= Al[(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 203.0207 g 2 species in reaction 1.000 Al+++ 2.000 Oxalate-- -13.4100 -13.4100 -13.4100 -13.4100 -13.4100 -13.4100 -13.4100 -13.4100 * logK= -13.410000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al-(Oxalate)3--- formula= Al[(COO)2]3--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 291.0403 g 2 species in reaction 1.000 Al+++ 3.000 Oxalate-- -16.8335 -16.9673 -17.0900 -17.2243 -17.3463 -17.4576 -17.5596 -17.6534 * logK= -17.090000 deltaH= -16.000000 kJ Al-(Phthalate)2- formula= Al[C6H4(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 355.2159 g 2 species in reaction 2.000 Phthalate-- 1.000 Al+++ -7.1500 -7.1500 -7.1500 -7.1500 -7.1500 -7.1500 -7.1500 -7.1500 * logK= -7.150000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al-(Sal)2- formula= Al(OC6H4COO)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 299.1951 g 2 species in reaction 1.000 Al+++ 2.000 Sal-- -25.1800 -25.1800 -25.1800 -25.1800 -25.1800 -25.1800 -25.1800 -25.1800 * logK= -25.180000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al-(Tartrate)2- formula= Al(C4H4O6)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 323.1255 g 2 species in reaction 2.000 Tartrate-- 1.000 Al+++ -9.3700 -9.3700 -9.3700 -9.3700 -9.3700 -9.3700 -9.3700 -9.3700 * logK= -9.370000 deltaH= 0.000000 kJ Al-Acetate++ formula= Al(CH3COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 86.0260 g 2 species in reaction 1.000 Acetate- 1.000 Al+++ -2.4935 -2.6273 -2.7500 -2.8843 -3.0063 -3.1176 -3.2196 -3.3134 * logK= -2.750000 deltaH= -16.000000 kJ Al-Benzoate++ formula= Al(C6H5COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 148.0968 g 2 species in reaction 1.000 Al+++ 1.000 Benzoate- -1.7400 -1.7400 -1.7400 -1.7400 -1.7400 -1.7400 -1.7400 -1.7400 * logK= -1.740000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al-Butyrate++ formula= Al[CH3CH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 114.0796 g 2 species in reaction 1.000 Al+++ 1.000 Butyrate- -2.1900 -2.1900 -2.1900 -2.1900 -2.1900 -2.1900 -2.1900 -2.1900 * logK= -2.190000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al-Citrate (aq) formula= Al[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 216.0828 g 2 species in reaction 1.000 Al+++ 1.000 Citrate--- -9.9800 -9.9800 -9.9800 -9.9800 -9.9800 -9.9800 -9.9800 -9.9800 * logK= -9.980000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al-DTPA-- formula= Al(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 415.2918 g 2 species in reaction 1.000 Al+++ 1.000 DTPA----- -22.3010 -22.0500 -21.8200 -21.5683 -21.3395 -21.1308 -20.9395 -20.7637 * logK= -21.820000 deltaH= 30.000000 kJ Al-Formate++ formula= Al[HCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 71.9992 g 2 species in reaction 1.000 Al+++ 1.000 Formate- -1.9700 -1.9700 -1.9700 -1.9700 -1.9700 -1.9700 -1.9700 -1.9700 * logK= -1.970000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al-Glutamate+ formula= Al(C5H7NO4)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 172.0961 g 2 species in reaction 1.000 Glutamate-- 1.000 Al+++ -8.5800 -8.5800 -8.5800 -8.5800 -8.5800 -8.5800 -8.5800 -8.5800 * logK= -8.580000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al-Glycine++ formula= Al[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 101.0406 g 2 species in reaction 1.000 Glycine- 1.000 Al+++ -6.5600 -6.5600 -6.5600 -6.5600 -6.5600 -6.5600 -6.5600 -6.5600 * logK= -6.560000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al-HEDTA (aq) formula= Al(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 302.2192 g 2 species in reaction 1.000 Al+++ 1.000 HEDTA--- -15.7467 -16.0564 -16.3400 -16.6505 -16.9326 -17.1900 -17.4259 -17.6428 * logK= -16.340000 deltaH= -37.000000 kJ Al-Lactate++ formula= Al[CH3CH(OH)COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 116.0522 g 2 species in reaction 1.000 Lactate- 1.000 Al+++ -3.2400 -3.2400 -3.2400 -3.2400 -3.2400 -3.2400 -3.2400 -3.2400 * logK= -3.240000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al-Malonate+ formula= Al[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 129.0279 g 2 species in reaction 1.000 Malonate-- 1.000 Al+++ -7.1693 -7.3367 -7.4900 -7.6578 -7.8103 -7.9495 -8.0770 -8.1942 * logK= -7.490000 deltaH= -20.000000 kJ Al-Oxalate+ formula= Al[(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 115.0011 g 2 species in reaction 1.000 Al+++ 1.000 Oxalate-- -7.7300 -7.7300 -7.7300 -7.7300 -7.7300 -7.7300 -7.7300 -7.7300 * logK= -7.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al-Phthalate+ formula= Al[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 191.0987 g 2 species in reaction 1.000 Phthalate-- 1.000 Al+++ -4.5500 -4.5500 -4.5500 -4.5500 -4.5500 -4.5500 -4.5500 -4.5500 * logK= -4.550000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al-Propionate++ formula= Al(CH3CH2COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 100.0528 g 2 species in reaction 1.000 Propionate- 1.000 Al+++ -2.1076 -2.2080 -2.3000 -2.4007 -2.4922 -2.5757 -2.6522 -2.7225 * logK= -2.300000 deltaH= -12.000000 kJ Al-Sal+ formula= Al(OC6H4COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 163.0883 g 2 species in reaction 1.000 Al+++ 1.000 Sal-- -14.3700 -14.3700 -14.3700 -14.3700 -14.3700 -14.3700 -14.3700 -14.3700 * logK= -14.370000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al-Succinate+ formula= Al[(CH2)2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 143.0547 g 2 species in reaction 1.000 Al+++ 1.000 Succinate-- -4.9200 -4.9200 -4.9200 -4.9200 -4.9200 -4.9200 -4.9200 -4.9200 * logK= -4.920000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al2(OH)2++++ charge= 4 ion size= 0.0 A b= 0.0000 mole wt.= 87.9776 g 3 species in reaction -2.000 H+ 2.000 Al+++ 2.000 H2O 8.8905 8.2660 7.6940 7.0678 6.4989 5.9797 5.5040 5.0665 * logK= 7.694000 deltaH= -74.620000 kJ Al2(OH)2-(Phthalate)2 (aq) formula= Al2(OH)2[C6H4(COO)2]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 416.2120 g 4 species in reaction 2.000 Phthalate-- -2.000 H+ 2.000 Al+++ 2.000 H2O -3.1460 -3.1460 -3.1460 -3.1460 -3.1460 -3.1460 -3.1460 -3.1460 * logK= -3.146000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al2(OH)2-(Sal)2 (aq) formula= Al2(OH)2(OC6H4COO)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 360.1912 g 4 species in reaction -2.000 H+ 2.000 Al+++ 2.000 Sal-- 2.000 H2O -48.4600 -48.4600 -48.4600 -48.4600 -48.4600 -48.4600 -48.4600 -48.4600 * logK= -48.460000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al2(OH)2-Acetate+++ formula= Al2(OH)2(CH3COO)+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 147.0221 g 4 species in reaction 1.000 Acetate- -2.000 H+ 2.000 Al+++ 2.000 H2O 2.4140 2.4140 2.4140 2.4140 2.4140 2.4140 2.4140 2.4140 * logK= 2.414000 deltaH= 0.000000 kJ Al2(OH)2-Phthalate++ formula= Al2(OH)2[C6H4(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 252.0948 g 4 species in reaction 1.000 Phthalate-- -2.000 H+ 2.000 Al+++ 2.000 H2O .3540 .3540 .3540 .3540 .3540 .3540 .3540 .3540 * logK= 0.354000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al2(OH)2CO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 147.9868 g 4 species in reaction -2.000 H+ 2.000 Al+++ 1.000 CO3-- 2.000 H2O -4.3100 -4.3100 -4.3100 -4.3100 -4.3100 -4.3100 -4.3100 -4.3100 * logK= -4.310000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Al2-Glutamate++++ formula= Al2(C5H7NO4)++++ charge= 4 ion size= 0.0 A b= 0.0000 mole wt.= 199.0776 g 2 species in reaction 1.000 Glutamate-- 2.000 Al+++ -10.1300 -10.1300 -10.1300 -10.1300 -10.1300 -10.1300 -10.1300 -10.1300 * logK= -10.130000 deltaH= 0.000000 kJ Al2OH-Glycine++++ formula= Al2OH[NH2CH2COO]++++ charge= 4 ion size= 0.0 A b= 0.0000 mole wt.= 145.0294 g 4 species in reaction 1.000 Glycine- -1.000 H+ 2.000 Al+++ 1.000 H2O -4.5600 -4.5600 -4.5600 -4.5600 -4.5600 -4.5600 -4.5600 -4.5600 * logK= -4.560000 deltaH= 0.000000 kJ Al2PO4+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 148.9344 g 2 species in reaction 2.000 Al+++ 1.000 PO4--- -18.9800 -18.9800 -18.9800 -18.9800 -18.9800 -18.9800 -18.9800 -18.9800 * logK= -18.980000 deltaH= 0.000000 kJ Al3(OH)4+++++ charge= 5 ion size= 0.0 A b= 0.0000 mole wt.= 148.9737 g 3 species in reaction -4.000 H+ 3.000 Al+++ 4.000 H2O 16.1366 14.9631 13.8880 12.7112 11.6419 10.6662 9.7721 8.9500 * logK= 13.888000 deltaH= -140.240000 kJ AlCl++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 62.4345 g 2 species in reaction 1.000 Cl- 1.000 Al+++ .3900 .3900 .3900 .3900 .3900 .3900 .3900 .3900 * logK= 0.390000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlEDTA- formula= Al(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 315.1949 g 2 species in reaction 1.000 Al+++ 1.000 EDTA---- -18.1150 -18.5560 -18.9600 -19.4022 -19.8040 -20.1707 -20.5067 -20.8156 * logK= -18.960000 deltaH= -52.700000 kJ AlEGTA- formula= Al(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 403.3009 g 2 species in reaction 1.000 EGTA---- 1.000 Al+++ -16.4600 -16.4600 -16.4600 -16.4600 -16.4600 -16.4600 -16.4600 -16.4600 * logK= -16.460000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlF++ charge= 2 ion size= 5.4 A b= 0.0000 mole wt.= 45.9799 g 2 species in reaction 1.000 Al+++ 1.000 F- -6.9362 -6.9747 -7.0100 -7.0486 -7.0837 -7.1157 -7.1450 -7.1720 * logK= -7.010000 deltaH= -4.600000 kJ AlF2+ charge= 1 ion size= 5.4 A b= 0.0000 mole wt.= 64.9783 g 2 species in reaction 1.000 Al+++ 2.000 F- -12.4969 -12.5664 -12.6300 -12.6996 -12.7629 -12.8207 -12.8736 -12.9223 * logK= -12.630000 deltaH= -8.300000 kJ AlF3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 83.9767 g 2 species in reaction 1.000 Al+++ 3.000 F- -16.5605 -16.6333 -16.7000 -16.7730 -16.8393 -16.8999 -16.9553 -17.0063 * logK= -16.700000 deltaH= -8.700000 kJ AlF4- charge= -1 ion size= 4.5 A b= 0.0000 mole wt.= 102.9751 g 2 species in reaction 1.000 Al+++ 4.000 F- -19.2605 -19.3333 -19.4000 -19.4730 -19.5393 -19.5999 -19.6553 -19.7063 * logK= -19.400000 deltaH= -8.700000 kJ AlH-Citrate+ formula= AlH[C3H5O(COO)3]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 217.0907 g 3 species in reaction 1.000 H+ 1.000 Al+++ 1.000 Citrate--- -12.8500 -12.8500 -12.8500 -12.8500 -12.8500 -12.8500 -12.8500 -12.8500 * logK= -12.850000 deltaH= 0.000000 kJ AlH-DTPA- formula= AlH(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 416.2997 g 3 species in reaction 1.000 H+ 1.000 Al+++ 1.000 DTPA----- -26.5500 -26.5500 -26.5500 -26.5500 -26.5500 -26.5500 -26.5500 -26.5500 * logK= -26.550000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlH-Glutamate++ formula= AlH(C5H7NO4)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 173.1040 g 3 species in reaction 1.000 Glutamate-- 1.000 H+ 1.000 Al+++ -11.9800 -11.9800 -11.9800 -11.9800 -11.9800 -11.9800 -11.9800 -11.9800 * logK= -11.980000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlH-HEDTA+ formula= AlH(C10H15N2O7)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 303.2271 g 3 species in reaction 1.000 H+ 1.000 Al+++ 1.000 HEDTA--- -18.4700 -18.4700 -18.4700 -18.4700 -18.4700 -18.4700 -18.4700 -18.4700 * logK= -18.470000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlH-Oxalate++ formula= AlH[(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 116.0090 g 3 species in reaction 1.000 H+ 1.000 Al+++ 1.000 Oxalate-- -7.4600 -7.4600 -7.4600 -7.4600 -7.4600 -7.4600 -7.4600 -7.4600 * logK= -7.460000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlH-Succinate++ formula= AlH[(CH2)2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 144.0626 g 3 species in reaction 1.000 H+ 1.000 Al+++ 1.000 Succinate-- -8.0800 -8.0800 -8.0800 -8.0800 -8.0800 -8.0800 -8.0800 -8.0800 * logK= -8.080000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlH3SiO4++ charge= 2 ion size= 5.4 A b= 0.0000 mole wt.= 122.0883 g 3 species in reaction -1.000 H+ 1.000 Al+++ 1.000 H4SiO4 3.4479 2.8906 2.3800 1.8211 1.3133 .8499 .4254 .0349 * logK= 2.380000 deltaH= -66.600000 kJ AlHEDTA (aq) formula= AlH(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 316.2028 g 3 species in reaction 1.000 H+ 1.000 Al+++ 1.000 EDTA---- -21.1916 -21.4987 -21.7800 -22.0880 -22.3678 -22.6231 -22.8571 -23.0723 * logK= -21.780000 deltaH= -36.700000 kJ AlHEGTA (aq) formula= AlH(C14H20N2O10) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 404.3088 g 3 species in reaction 1.000 EGTA---- 1.000 H+ 1.000 Al+++ -20.0100 -20.0100 -20.0100 -20.0100 -20.0100 -20.0100 -20.0100 -20.0100 * logK= -20.010000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlHNTA+ formula= AlH[N(CH2COO)3]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 216.1059 g 3 species in reaction 1.000 NTA--- 1.000 H+ 1.000 Al+++ -15.2200 -15.2200 -15.2200 -15.2200 -15.2200 -15.2200 -15.2200 -15.2200 * logK= -15.220000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlHPO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 122.9608 g 3 species in reaction 1.000 H+ 1.000 Al+++ 1.000 PO4--- -20.0100 -20.0100 -20.0100 -20.0100 -20.0100 -20.0100 -20.0100 -20.0100 * logK= -20.010000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlMo6O21--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 938.6089 g 4 species in reaction 6.000 H+ 1.000 Al+++ 6.000 MoO4-- -3.000 H2O -54.9925 -54.9925 -54.9925 -54.9925 -54.9925 -54.9925 -54.9925 -54.9925 * logK= -54.992500 deltaH= 0.000000 kJ AlNTA (aq) formula= Al[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 215.0980 g 2 species in reaction 1.000 NTA--- 1.000 Al+++ -13.3200 -13.3200 -13.3200 -13.3200 -13.3200 -13.3200 -13.3200 -13.3200 * logK= -13.320000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlOH++ charge= 2 ion size= 5.4 A b= 0.0000 mole wt.= 43.9888 g 3 species in reaction -1.000 H+ 1.000 Al+++ 1.000 H2O 5.7636 5.3635 4.9970 4.5958 4.2313 3.8986 3.5938 3.3136 * logK= 4.997000 deltaH= -47.810000 kJ AlOH-(Lactate)2 (aq) formula= AlOH[CH3CH(OH)COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 222.1302 g 4 species in reaction 2.000 Lactate- -1.000 H+ 1.000 Al+++ 1.000 H2O -2.3400 -2.3400 -2.3400 -2.3400 -2.3400 -2.3400 -2.3400 -2.3400 * logK= -2.340000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlOH-(Oxalate)2-- formula= AlOH[(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 220.0280 g 4 species in reaction -1.000 H+ 1.000 Al+++ 2.000 Oxalate-- 1.000 H2O -6.8400 -6.8400 -6.8400 -6.8400 -6.8400 -6.8400 -6.8400 -6.8400 * logK= -6.840000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlOH-(Sal)2-- formula= AlOH(OC6H4COO)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 316.2024 g 4 species in reaction -1.000 H+ 1.000 Al+++ 2.000 Sal-- 1.000 H2O -31.6200 -31.6200 -31.6200 -31.6200 -31.6200 -31.6200 -31.6200 -31.6200 * logK= -31.620000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlOH-Acetate+ formula= AlOH(CH3COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 103.0333 g 4 species in reaction 1.000 Acetate- -1.000 H+ 1.000 Al+++ 1.000 H2O .1470 .1470 .1470 .1470 .1470 .1470 .1470 .1470 * logK= 0.147000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlOH-Benzoate+ formula= AlOH(C6H5COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 165.1041 g 4 species in reaction -1.000 H+ 1.000 Al+++ 1.000 Benzoate- 1.000 H2O .5600 .5600 .5600 .5600 .5600 .5600 .5600 .5600 * logK= 0.560000 deltaH= 0.000000 kJ AlOH-DTPA--- formula= AlOH(C14H18N3O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 432.2991 g 4 species in reaction -1.000 H+ 1.000 Al+++ 1.000 DTPA----- 1.000 H2O -14.5900 -14.5900 -14.5900 -14.5900 -14.5900 -14.5900 -14.5900 -14.5900 * logK= -14.590000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlOH-Formate+ formula= AlOH[HCOO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 89.0065 g 4 species in reaction -1.000 H+ 1.000 Al+++ 1.000 Formate- 1.000 H2O 1.6200 1.6200 1.6200 1.6200 1.6200 1.6200 1.6200 1.6200 * logK= 1.620000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlOH-Glutamate (aq) formula= AlOH(C5H7NO4) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 189.1034 g 4 species in reaction 1.000 Glutamate-- -1.000 H+ 1.000 Al+++ 1.000 H2O -3.8500 -3.8500 -3.8500 -3.8500 -3.8500 -3.8500 -3.8500 -3.8500 * logK= -3.850000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlOH-Glycine+ formula= AlOH[NH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 118.0479 g 4 species in reaction 1.000 Glycine- -1.000 H+ 1.000 Al+++ 1.000 H2O -1.9400 -1.9400 -1.9400 -1.9400 -1.9400 -1.9400 -1.9400 -1.9400 * logK= -1.940000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlOH-HEDTA- formula= AlOH(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 319.2265 g 4 species in reaction -1.000 H+ 1.000 Al+++ 1.000 H2O 1.000 HEDTA--- -11.2300 -11.2300 -11.2300 -11.2300 -11.2300 -11.2300 -11.2300 -11.2300 * logK= -11.230000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlOH-Lactate+ formula= AlOH[CH3CH(OH)COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 133.0595 g 4 species in reaction 1.000 Lactate- -1.000 H+ 1.000 Al+++ 1.000 H2O .8000 .8000 .8000 .8000 .8000 .8000 .8000 .8000 * logK= 0.800000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlOH-Oxalate formula= AlOH[(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 132.0084 g 4 species in reaction -1.000 H+ 1.000 Al+++ 1.000 Oxalate-- 1.000 H2O -2.5700 -2.5700 -2.5700 -2.5700 -2.5700 -2.5700 -2.5700 -2.5700 * logK= -2.570000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlOH-Succinate (aq) formula= AlOH[(CH2)2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 160.0620 g 4 species in reaction -1.000 H+ 1.000 Al+++ 1.000 H2O 1.000 Succinate-- -.7700 -.7700 -.7700 -.7700 -.7700 -.7700 -.7700 -.7700 * logK= -0.770000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlOHEDTA-- formula= AlOH(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 332.2022 g 4 species in reaction -1.000 H+ 1.000 Al+++ 1.000 EDTA---- 1.000 H2O -11.2138 -11.9545 -12.6330 -13.3757 -14.0506 -14.6664 -15.2307 -15.7495 * logK= -12.633000 deltaH= -88.510000 kJ AlOHNTA- formula= AlOH[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 232.1053 g 4 species in reaction 1.000 NTA--- -1.000 H+ 1.000 Al+++ 1.000 H2O -8.0200 -8.0200 -8.0200 -8.0200 -8.0200 -8.0200 -8.0200 -8.0200 * logK= -8.020000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlSCN++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 85.0632 g 2 species in reaction 1.000 Al+++ 1.000 SCN- -.4200 -.4200 -.4200 -.4200 -.4200 -.4200 -.4200 -.4200 * logK= -0.420000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlSO4+ charge= 1 ion size= 4.5 A b= 0.0000 mole wt.= 123.0431 g 2 species in reaction 1.000 Al+++ 1.000 SO4-- -3.4438 -3.7031 -3.8083 -3.8382 -3.8585 -3.9463 -4.1593 -4.5404 * logK= -3.840000 deltaH= -9.000000 kJ * analytic data = 4546.525 1.256856 -124194.5 -1818.96 0 0 0 Am(CO3)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 363.0184 g 2 species in reaction 1.000 Am+++ 2.000 CO3-- -12.3000 -12.3000 -12.3000 -12.3000 -12.3000 -12.3000 -12.3000 -12.3000 * logK= -12.300000 deltaH= 0.000000 kJ Am(NTA)2--- formula= Am[N(CH2COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 619.2330 g 2 species in reaction 2.000 NTA--- 1.000 Am+++ -22.5907 -22.4233 -22.2700 -22.1022 -21.9497 -21.8105 -21.6830 -21.5658 * logK= -22.270000 deltaH= 20.000000 kJ Am(OH)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 277.0146 g 3 species in reaction -2.000 H+ 1.000 Am+++ 2.000 H2O 14.0940 14.0940 14.0940 14.0940 14.0940 14.0940 14.0940 14.0940 * logK= 14.094000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Am(OH)3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 294.0219 g 3 species in reaction -3.000 H+ 1.000 Am+++ 3.000 H2O 25.6910 25.6910 25.6910 25.6910 25.6910 25.6910 25.6910 25.6910 * logK= 25.691000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Am(SO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 435.1232 g 2 species in reaction 1.000 Am+++ 2.000 SO4-- -5.4000 -5.4000 -5.4000 -5.4000 -5.4000 -5.4000 -5.4000 -5.4000 * logK= -5.400000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Am-(Acetate)2+ formula= Am(CH3COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 361.0890 g 2 species in reaction 2.000 Acetate- 1.000 Am+++ -4.6200 -4.6200 -4.6200 -4.6200 -4.6200 -4.6200 -4.6200 -4.6200 * logK= -4.620000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Am-(Acetate)3 (aq) formula= Am(CH3COO)3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 420.1335 g 2 species in reaction 3.000 Acetate- 1.000 Am+++ -5.5100 -5.5100 -5.5100 -5.5100 -5.5100 -5.5100 -5.5100 -5.5100 * logK= -5.510000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Am-(HEDTA)2--- formula= Am(C10H15N2O7)2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 793.4754 g 2 species in reaction 1.000 Am+++ 2.000 HEDTA--- -29.3300 -29.3300 -29.3300 -29.3300 -29.3300 -29.3300 -29.3300 -29.3300 * logK= -29.330000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Am-(Lactate)2+ formula= Am[CH3CH(OH)COO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 421.1414 g 2 species in reaction 2.000 Lactate- 1.000 Am+++ -5.2841 -5.2507 -5.2200 -5.1864 -5.1559 -5.1281 -5.1026 -5.0792 * logK= -5.220000 deltaH= 4.000000 kJ Am-(Lactate)3 (aq) formula= Am[CH3CH(OH)COO]3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 510.2121 g 2 species in reaction 3.000 Lactate- 1.000 Am+++ -7.6407 -7.4733 -7.3200 -7.1522 -6.9997 -6.8605 -6.7330 -6.6158 * logK= -7.320000 deltaH= 20.000000 kJ Am-(Oxalate)2- formula= Am[(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 419.0392 g 2 species in reaction 1.000 Am+++ 2.000 Oxalate-- -10.5700 -10.5700 -10.5700 -10.5700 -10.5700 -10.5700 -10.5700 -10.5700 * logK= -10.570000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Am-Acetate++ formula= Am(CH3COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 302.0445 g 2 species in reaction 1.000 Acetate- 1.000 Am+++ -2.6942 -2.7494 -2.8000 -2.8554 -2.9057 -2.9516 -2.9937 -3.0324 * logK= -2.800000 deltaH= -6.600000 kJ Am-Citrate (aq) formula= Am[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 432.1013 g 2 species in reaction 1.000 Am+++ 1.000 Citrate--- -9.6700 -9.6700 -9.6700 -9.6700 -9.6700 -9.6700 -9.6700 -9.6700 * logK= -9.670000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Am-DTPA-- formula= Am(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 631.3103 g 2 species in reaction 1.000 Am+++ 1.000 DTPA----- -26.1200 -26.1200 -26.1200 -26.1200 -26.1200 -26.1200 -26.1200 -26.1200 * logK= -26.120000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Am-HEDTA (aq) formula= Am(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 518.2377 g 2 species in reaction 1.000 Am+++ 1.000 HEDTA--- -17.6400 -17.6400 -17.6400 -17.6400 -17.6400 -17.6400 -17.6400 -17.6400 * logK= -17.640000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Am-Lactate++ formula= Am[CH3CH(OH)COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 332.0707 g 2 species in reaction 1.000 Lactate- 1.000 Am+++ -3.1683 -3.1013 -3.0400 -2.9729 -2.9119 -2.8562 -2.8052 -2.7583 * logK= -3.040000 deltaH= 8.000000 kJ Am-Oxalate+ formula= Am[(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 331.0196 g 2 species in reaction 1.000 Am+++ 1.000 Oxalate-- -6.5300 -6.5300 -6.5300 -6.5300 -6.5300 -6.5300 -6.5300 -6.5300 * logK= -6.530000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AmCl++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 278.4530 g 2 species in reaction 1.000 Cl- 1.000 Am+++ -.5100 -.5100 -.5100 -.5100 -.5100 -.5100 -.5100 -.5100 * logK= -0.510000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AmCO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 303.0092 g 2 species in reaction 1.000 Am+++ 1.000 CO3-- -7.8000 -7.8000 -7.8000 -7.8000 -7.8000 -7.8000 -7.8000 -7.8000 * logK= -7.800000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AmEDTA- formula= Am(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 531.2134 g 2 species in reaction 1.000 Am+++ 1.000 EDTA---- -20.3646 -20.2057 -20.0600 -19.9006 -19.7557 -19.6235 -19.5024 -19.3910 * logK= -20.060000 deltaH= 19.000000 kJ AmEGTA- formula= Am(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 619.3194 g 2 species in reaction 1.000 EGTA---- 1.000 Am+++ -20.7600 -20.7600 -20.7600 -20.7600 -20.7600 -20.7600 -20.7600 -20.7600 * logK= -20.760000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AmF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 261.9984 g 2 species in reaction 1.000 Am+++ 1.000 F- -3.0793 -3.2467 -3.4000 -3.5678 -3.7203 -3.8595 -3.9870 -4.1042 * logK= -3.400000 deltaH= -20.000000 kJ AmF2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 280.9968 g 2 species in reaction 1.000 Am+++ 2.000 F- -5.3992 -5.6083 -5.8000 -6.0098 -6.2004 -6.3743 -6.5337 -6.6803 * logK= -5.800000 deltaH= -25.000000 kJ AmH-DTPA- formula= AmH(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 632.3182 g 3 species in reaction 1.000 H+ 1.000 Am+++ 1.000 DTPA----- -28.1200 -28.1200 -28.1200 -28.1200 -28.1200 -28.1200 -28.1200 -28.1200 * logK= -28.120000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AmH2PO4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 339.9872 g 3 species in reaction 2.000 H+ 1.000 Am+++ 1.000 PO4--- -22.1240 -22.3583 -22.5730 -22.8080 -23.0214 -23.2163 -23.3948 -23.5589 * logK= -22.573000 deltaH= -28.000000 kJ AmNO2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 289.0055 g 2 species in reaction 1.000 Am+++ 1.000 NO2- -1.5700 -1.5700 -1.5700 -1.5700 -1.5700 -1.5700 -1.5700 -1.5700 * logK= -1.570000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AmNO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 305.0049 g 2 species in reaction 1.000 NO3- 1.000 Am+++ -1.3000 -1.3000 -1.3000 -1.3000 -1.3000 -1.3000 -1.3000 -1.3000 * logK= -1.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AmNTA (aq) formula= Am[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 431.1165 g 2 species in reaction 1.000 NTA--- 1.000 Am+++ -13.4559 -13.4893 -13.5200 -13.5536 -13.5841 -13.6119 -13.6374 -13.6608 * logK= -13.520000 deltaH= -4.000000 kJ AmOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 260.0073 g 3 species in reaction -1.000 H+ 1.000 Am+++ 1.000 H2O 6.4970 6.4970 6.4970 6.4970 6.4970 6.4970 6.4970 6.4970 * logK= 6.497000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AmSCN++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 301.0817 g 2 species in reaction 1.000 Am+++ 1.000 SCN- -1.1717 -1.2387 -1.3000 -1.3671 -1.4281 -1.4838 -1.5348 -1.5817 * logK= -1.300000 deltaH= -8.000000 kJ AmSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 339.0616 g 2 species in reaction 1.000 Am+++ 1.000 SO4-- -3.5435 -3.6773 -3.8000 -3.9343 -4.0563 -4.1676 -4.2696 -4.3634 * logK= -3.800000 deltaH= -16.000000 kJ As3S4(HS)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 419.1646 g 4 species in reaction 3.000 H3AsO3 5.000 H+ 6.000 HS- -9.000 H2O -72.3140 -72.3140 -72.3140 -72.3140 -72.3140 -72.3140 -72.3140 -72.3140 * logK= -72.314000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AsS(OH)HS- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 157.0648 g 4 species in reaction 1.000 H3AsO3 1.000 H+ 2.000 HS- -2.000 H2O -18.0380 -18.0380 -18.0380 -18.0380 -18.0380 -18.0380 -18.0380 -18.0380 * logK= -18.038000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Au(OH)4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 264.9962 g 3 species in reaction -4.000 H+ 1.000 Au+++ 4.000 H2O 11.7880 11.7880 11.7880 11.7880 11.7880 11.7880 11.7880 11.7880 * logK= 11.788000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AuOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 213.9743 g 3 species in reaction -1.000 H+ 1.000 Au+++ 1.000 H2O 1.4970 1.4970 1.4970 1.4970 1.4970 1.4970 1.4970 1.4970 * logK= 1.497000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ba-(Butyrate)2 (aq) formula= Ba[CH3CH2CH2COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 311.5362 g 2 species in reaction 1.000 Ba++ 2.000 Butyrate- -.8800 -.8800 -.8800 -.8800 -.8800 -.8800 -.8800 -.8800 * logK= -0.880000 deltaH= 0.000000 kJ Ba-(Lactate)2 (aq) formula= Ba[CH3CH(OH)COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 315.4814 g 2 species in reaction 2.000 Lactate- 1.000 Ba++ -1.1300 -1.1300 -1.1300 -1.1300 -1.1300 -1.1300 -1.1300 -1.1300 * logK= -1.130000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ba-(Propionate)2 (aq) formula= Ba(CH3CH2COO)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 283.4826 g 2 species in reaction 2.000 Propionate- 1.000 Ba++ -.9834 -.9834 -.9834 -.9834 -.9834 -.9834 -.9834 -.9834 * logK= -0.983400 deltaH= 0.000000 kJ Ba-Acetate+ formula= Ba(CH3COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 196.3845 g 2 species in reaction 1.000 Acetate- 1.000 Ba++ -1.0700 -1.0700 -1.0700 -1.0700 -1.0700 -1.0700 -1.0700 -1.0700 * logK= -1.070000 deltaH= 0.000000 kJ Ba-Butyrate+ formula= Ba[CH3CH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 224.4381 g 2 species in reaction 1.000 Ba++ 1.000 Butyrate- -.7400 -.7400 -.7400 -.7400 -.7400 -.7400 -.7400 -.7400 * logK= -0.740000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ba-Citrate- formula= Ba[C3H5O(COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 326.4413 g 2 species in reaction 1.000 Citrate--- 1.000 Ba++ -4.1700 -4.1700 -4.1700 -4.1700 -4.1700 -4.1700 -4.1700 -4.1700 * logK= -4.170000 deltaH= 0.000000 kJ Ba-DTPA--- formula= Ba(C14H18N3O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 525.6503 g 2 species in reaction 1.000 Ba++ 1.000 DTPA----- -11.3550 -11.1123 -10.8900 -10.6466 -10.4255 -10.2238 -10.0389 -9.8689 * logK= -10.890000 deltaH= 29.000000 kJ Ba-Formate+ formula= Ba[HCOO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 182.3577 g 2 species in reaction 1.000 Formate- 1.000 Ba++ -1.3800 -1.3800 -1.3800 -1.3800 -1.3800 -1.3800 -1.3800 -1.3800 * logK= -1.380000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ba-Glutamate (aq) formula= Ba(C5H7NO4) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 282.4546 g 2 species in reaction 1.000 Glutamate-- 1.000 Ba++ -2.1500 -2.1500 -2.1500 -2.1500 -2.1500 -2.1500 -2.1500 -2.1500 * logK= -2.150000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ba-Glutarate (aq) formula= Ba[C3H6(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 267.4400 g 2 species in reaction 1.000 Ba++ 1.000 Glutarate-- -2.0400 -2.0400 -2.0400 -2.0400 -2.0400 -2.0400 -2.0400 -2.0400 * logK= -2.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ba-Glycine+ formula= Ba[NH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 211.3991 g 2 species in reaction 1.000 Glycine- 1.000 Ba++ -.7700 -.7700 -.7700 -.7700 -.7700 -.7700 -.7700 -.7700 * logK= -0.770000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ba-HEDTA- formula= Ba(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 412.5777 g 2 species in reaction 1.000 Ba++ 1.000 HEDTA--- -7.8427 -7.6587 -7.4900 -7.3054 -7.1376 -6.9846 -6.8443 -6.7154 * logK= -7.490000 deltaH= 22.000000 kJ Ba-iPhthalate (aq) formula= Ba[C6H4(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 301.4572 g 2 species in reaction 1.000 iPhthalate-- 1.000 Ba++ -1.5500 -1.5500 -1.5500 -1.5500 -1.5500 -1.5500 -1.5500 -1.5500 * logK= -1.550000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ba-Lactate+ formula= Ba[CH3CH(OH)COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 226.4107 g 2 species in reaction 1.000 Lactate- 1.000 Ba++ -.7700 -.7700 -.7700 -.7700 -.7700 -.7700 -.7700 -.7700 * logK= -0.770000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ba-Malate (aq) formula= Ba(C4H4O5) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 269.4126 g 2 species in reaction 1.000 Malate-- 1.000 Ba++ -2.2000 -2.2000 -2.2000 -2.2000 -2.2000 -2.2000 -2.2000 -2.2000 * logK= -2.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ba-Malonate (aq) formula= Ba[CH2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 239.3864 g 2 species in reaction 1.000 Malonate-- 1.000 Ba++ -2.0700 -2.0700 -2.0700 -2.0700 -2.0700 -2.0700 -2.0700 -2.0700 * logK= -2.070000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ba-Oxalate (aq) formula= Ba[(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 225.3596 g 2 species in reaction 1.000 Ba++ 1.000 Oxalate-- -2.3300 -2.3300 -2.3300 -2.3300 -2.3300 -2.3300 -2.3300 -2.3300 * logK= -2.330000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ba-Phthalate (aq) formula= Ba[C6H4(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 301.4572 g 2 species in reaction 1.000 Phthalate-- 1.000 Ba++ -2.3000 -2.3000 -2.3000 -2.3000 -2.3000 -2.3000 -2.3000 -2.3000 * logK= -2.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ba-Propionate+ formula= Ba(CH3CH2COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 210.4113 g 2 species in reaction 1.000 Propionate- 1.000 Ba++ -.7700 -.7700 -.7700 -.7700 -.7700 -.7700 -.7700 -.7700 * logK= -0.770000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ba-Succinate (aq) formula= Ba[(CH2)2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 253.4132 g 2 species in reaction 1.000 Ba++ 1.000 Succinate-- -2.1200 -2.1200 -2.1200 -2.1200 -2.1200 -2.1200 -2.1200 -2.1200 * logK= -2.120000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ba-Tartrate (aq) formula= Ba(C4H4O6) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 285.4120 g 2 species in reaction 1.000 Tartrate-- 1.000 Ba++ -2.5400 -2.5400 -2.5400 -2.5400 -2.5400 -2.5400 -2.5400 -2.5400 * logK= -2.540000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ba-Valerate+ formula= Ba[CH3(CH2)3COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 238.4649 g 2 species in reaction 1.000 Valerate- 1.000 Ba++ .2000 .2000 .2000 .2000 .2000 .2000 .2000 .2000 * logK= 0.200000 deltaH= 0.000000 kJ BaCl+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 172.7930 g 2 species in reaction 1.000 Cl- 1.000 Ba++ .2224 .1220 .0300 -.0707 -.1622 -.2457 -.3222 -.3925 * logK= 0.030000 deltaH= -12.000000 kJ BaCO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 197.3492 g 2 species in reaction 1.000 Ba++ 1.000 CO3-- -2.4855 -2.6027 -2.7100 -2.8275 -2.9342 -3.0316 -3.1209 -3.2030 * logK= -2.710000 deltaH= -14.000000 kJ BaEDTA-- formula= Ba(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 425.5534 g 2 species in reaction 1.000 EDTA---- 1.000 Ba++ -9.9107 -9.7433 -9.5900 -9.4222 -9.2697 -9.1305 -9.0030 -8.8858 * logK= -9.590000 deltaH= 20.000000 kJ BaEGTA-- formula= Ba(C14H20N2O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 513.6594 g 2 species in reaction 1.000 EGTA---- 1.000 Ba++ -10.6033 -10.2936 -10.0100 -9.6995 -9.4174 -9.1600 -8.9241 -8.7072 * logK= -10.010000 deltaH= 37.000000 kJ BaF+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 156.3384 g 2 species in reaction 1.000 Ba++ 1.000 F- .0465 -.0873 -.2100 -.3443 -.4663 -.5776 -.6796 -.7734 * logK= -0.210000 deltaH= -16.000000 kJ BaFe(CN)6- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 349.2932 g 3 species in reaction 1.000 Fe+++ 1.000 Ba++ 6.000 CN- -51.1619 -48.7185 -46.4800 -44.0297 -41.8034 -39.7717 -37.9102 -36.1983 * logK= -46.480000 deltaH= 292.000000 kJ BaFe(CN)6-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 349.2932 g 3 species in reaction 1.000 Fe++ 1.000 Ba++ 6.000 CN- -44.6736 -41.8118 -39.1900 -36.3201 -33.7126 -31.3330 -29.1527 -27.1478 * logK= -39.190000 deltaH= 342.000000 kJ BaH-Citrate (aq) formula= BaH[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 327.4492 g 3 species in reaction 1.000 H+ 1.000 Citrate--- 1.000 Ba++ -8.7500 -8.7500 -8.7500 -8.7500 -8.7500 -8.7500 -8.7500 -8.7500 * logK= -8.750000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BaH-DTPA-- formula= BaH(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 526.6582 g 3 species in reaction 1.000 H+ 1.000 Ba++ 1.000 DTPA----- -16.8700 -16.8700 -16.8700 -16.8700 -16.8700 -16.8700 -16.8700 -16.8700 * logK= -16.870000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BaH-Malate+ formula= BaH(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 270.4205 g 3 species in reaction 1.000 H+ 1.000 Malate-- 1.000 Ba++ -6.2000 -6.2000 -6.2000 -6.2000 -6.2000 -6.2000 -6.2000 -6.2000 * logK= -6.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BaH-Sal+ formula= BaH(OC6H4COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 274.4547 g 3 species in reaction 1.000 H+ 1.000 Sal-- 1.000 Ba++ -14.0000 -14.0000 -14.0000 -14.0000 -14.0000 -14.0000 -14.0000 -14.0000 * logK= -14.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BaH-Succinate+ formula= BaH[(CH2)2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 254.4211 g 3 species in reaction 1.000 H+ 1.000 Ba++ 1.000 Succinate-- -6.5900 -6.5900 -6.5900 -6.5900 -6.5900 -6.5900 -6.5900 -6.5900 * logK= -6.590000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BaH-Tartrate+ formula= BaH(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 286.4199 g 3 species in reaction 1.000 Tartrate-- 1.000 H+ 1.000 Ba++ -5.8000 -5.8000 -5.8000 -5.8000 -5.8000 -5.8000 -5.8000 -5.8000 * logK= -5.800000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BaH2-Citrate+ formula= BaH2[C3H5O(COO)3]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 328.4571 g 3 species in reaction 2.000 H+ 1.000 Citrate--- 1.000 Ba++ -12.2900 -12.2900 -12.2900 -12.2900 -12.2900 -12.2900 -12.2900 -12.2900 * logK= -12.290000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BaH2BO3+ charge= 1 ion size= 2.5 A b= 0.0000 mole wt.= 198.1640 g 3 species in reaction 1.000 H3BO3 -1.000 H+ 1.000 Ba++ 8.0226 7.8803 7.7500 7.6073 7.4777 7.3594 7.2511 7.1514 * logK= 7.750000 deltaH= -17.000000 kJ BaHCO3+ charge= 1 ion size= 6.0 A b= 0.0000 mole wt.= 198.3571 g 3 species in reaction 1.000 H+ 1.000 Ba++ 1.000 CO3-- -11.1743 -11.2446 -11.3090 -11.3795 -11.4435 -11.5020 -11.5555 -11.6048 * logK= -11.309000 deltaH= -8.400000 kJ BaHEGTA- formula= BaH(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 514.6673 g 3 species in reaction 1.000 EGTA---- 1.000 H+ 1.000 Ba++ -15.7500 -15.7500 -15.7500 -15.7500 -15.7500 -15.7500 -15.7500 -15.7500 * logK= -15.750000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BaHPO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 233.3193 g 3 species in reaction 1.000 H+ 1.000 PO4--- 1.000 Ba++ -14.5900 -14.5900 -14.5900 -14.5900 -14.5900 -14.5900 -14.5900 -14.5900 * logK= -14.590000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BaNH3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 154.3704 g 3 species in reaction -1.000 H+ 1.000 Ba++ 1.000 NH4+ 9.3400 9.3400 9.3400 9.3400 9.3400 9.3400 9.3400 9.3400 * logK= 9.340000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BaNO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 199.3449 g 2 species in reaction 1.000 NO3- 1.000 Ba++ -.9084 -.7997 -.7000 -.5909 -.4918 -.4013 -.3185 -.2423 * logK= -0.700000 deltaH= 13.000000 kJ BaNTA- formula= Ba[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 325.4565 g 2 species in reaction 1.000 NTA--- 1.000 Ba++ -6.1862 -6.1360 -6.0900 -6.0397 -5.9939 -5.9522 -5.9139 -5.8787 * logK= -6.090000 deltaH= 6.000000 kJ BaOH+ charge= 1 ion size= 5.0 A b= 0.0000 mole wt.= 154.3473 g 3 species in reaction -1.000 H+ 1.000 Ba++ 1.000 H2O 14.3320 13.8232 13.3570 12.8467 12.3831 11.9600 11.5723 11.2158 * logK= 13.357000 deltaH= -60.810000 kJ BaS2O3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 249.4662 g 2 species in reaction 1.000 S2O3-- 1.000 Ba++ -2.0936 -2.1857 -2.2700 -2.3623 -2.4462 -2.5227 -2.5928 -2.6573 * logK= -2.270000 deltaH= -11.000000 kJ BaSO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 233.4016 g 2 species in reaction 1.000 Ba++ 1.000 SO4-- -2.1300 -2.1300 -2.1300 -2.1300 -2.1300 -2.1300 -2.1300 -2.1300 * logK= -2.130000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Be(OH)2 (aq) charge= 0 ion size= 6.5 A b= 0.0000 mole wt.= 43.0268 g 3 species in reaction -2.000 H+ 2.000 H2O 1.000 Be++ 11.1340 11.1340 11.1340 11.1340 11.1340 11.1340 11.1340 11.1340 * logK= 11.134000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Be(SO4)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 201.1354 g 2 species in reaction 1.000 Be++ 2.000 SO4-- -2.5900 -2.5900 -2.5900 -2.5900 -2.5900 -2.5900 -2.5900 -2.5900 * logK= -2.590000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Be(SO4)3---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 297.1970 g 2 species in reaction 1.000 Be++ 3.000 SO4-- -2.0800 -2.0800 -2.0800 -2.0800 -2.0800 -2.0800 -2.0800 -2.0800 * logK= -2.080000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Be-(Acetate)2 (aq) formula= Be(CH3COO)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 127.1012 g 2 species in reaction 2.000 Acetate- 1.000 Be++ -3.0000 -3.0000 -3.0000 -3.0000 -3.0000 -3.0000 -3.0000 -3.0000 * logK= -3.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Be-(Malonate)2-- formula= Be[CH2(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 213.1050 g 2 species in reaction 2.000 Malonate-- 1.000 Be++ -9.9195 -10.0450 -10.1600 -10.2859 -10.4002 -10.5046 -10.6002 -10.6882 * logK= -10.160000 deltaH= -15.000000 kJ Be-(Oxalate)2-- formula= Be[(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 185.0514 g 2 species in reaction 2.000 Oxalate-- 1.000 Be++ -6.0759 -6.4851 -6.8600 -7.2703 -7.6432 -7.9834 -8.2952 -8.5818 * logK= -6.860000 deltaH= -48.900000 kJ Be-(Phthalate)2-- formula= Be[C6H4(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 337.2466 g 2 species in reaction 2.000 Phthalate-- 1.000 Be++ -6.3900 -6.3900 -6.3900 -6.3900 -6.3900 -6.3900 -6.3900 -6.3900 * logK= -6.390000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Be-(Sal)2-- formula= Be(OC6H4COO)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 281.2258 g 3 species in reaction 0.000 H+ 2.000 Sal-- 1.000 Be++ -23.3700 -23.3700 -23.3700 -23.3700 -23.3700 -23.3700 -23.3700 -23.3700 * logK= -23.370000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Be-(Succinate)2-- formula= Be[(CH2)2(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 241.1586 g 2 species in reaction 1.000 Be++ 2.000 Succinate-- -4.6188 -4.9117 -5.1800 -5.4737 -5.7406 -5.9841 -6.2072 -6.4124 * logK= -5.180000 deltaH= -35.000000 kJ Be-(Tartrate)2-- formula= Be(C4H4O6)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 305.1562 g 2 species in reaction 2.000 Tartrate-- 1.000 Be++ -4.0100 -4.0100 -4.0100 -4.0100 -4.0100 -4.0100 -4.0100 -4.0100 * logK= -4.010000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Be-Acetate+ formula= Be(CH3COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 68.0567 g 2 species in reaction 1.000 Acetate- 1.000 Be++ -2.0500 -2.0500 -2.0500 -2.0500 -2.0500 -2.0500 -2.0500 -2.0500 * logK= -2.050000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Be-Citrate- formula= Be[C3H5O(COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 198.1135 g 2 species in reaction 1.000 Citrate--- 1.000 Be++ -5.5400 -5.5400 -5.5400 -5.5400 -5.5400 -5.5400 -5.5400 -5.5400 * logK= -5.540000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Be-Lactate+ formula= Be[CH3CH(OH)COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 98.0829 g 2 species in reaction 1.000 Lactate- 1.000 Be++ -1.8400 -1.8400 -1.8400 -1.8400 -1.8400 -1.8400 -1.8400 -1.8400 * logK= -1.840000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Be-Malate (aq) formula= Be(C4H4O5) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 141.0848 g 2 species in reaction 1.000 Malate-- 1.000 Be++ -3.6200 -3.6200 -3.6200 -3.6200 -3.6200 -3.6200 -3.6200 -3.6200 * logK= -3.620000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Be-Malonate (aq) formula= Be[CH2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 111.0586 g 2 species in reaction 1.000 Malonate-- 1.000 Be++ -6.4897 -6.5733 -6.6500 -6.7339 -6.8102 -6.8797 -6.9435 -7.0021 * logK= -6.650000 deltaH= -10.000000 kJ Be-Oxalate formula= Be[(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 97.0318 g 2 species in reaction 1.000 Oxalate-- 1.000 Be++ -4.7054 -4.8643 -5.0100 -5.1694 -5.3143 -5.4465 -5.5676 -5.6790 * logK= -5.010000 deltaH= -19.000000 kJ Be-Oxalate (aq) formula= Be[(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 97.0318 g 2 species in reaction 1.000 Oxalate-- 1.000 Be++ -4.7054 -4.8643 -5.0100 -5.1694 -5.3143 -5.4465 -5.5676 -5.6790 * logK= -5.010000 deltaH= -19.000000 kJ Be-Phthalate (aq) formula= Be[C6H4(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 173.1294 g 2 species in reaction 1.000 Phthalate-- 1.000 Be++ -4.2400 -4.2400 -4.2400 -4.2400 -4.2400 -4.2400 -4.2400 -4.2400 * logK= -4.240000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Be-Sal (aq) formula= Be(OC6H4COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 145.1190 g 3 species in reaction 0.000 H+ 1.000 Sal-- 1.000 Be++ -14.0083 -13.7430 -13.5000 -13.2340 -12.9923 -12.7717 -12.5696 -12.3838 * logK= -13.500000 deltaH= 31.700000 kJ Be-Succinate (aq) formula= Be[(CH2)2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 125.0854 g 2 species in reaction 1.000 Be++ 1.000 Succinate-- -3.8493 -4.0167 -4.1700 -4.3378 -4.4903 -4.6295 -4.7570 -4.8742 * logK= -4.170000 deltaH= -20.000000 kJ Be-Tartrate (aq) formula= Be(C4H4O6) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 157.0842 g 2 species in reaction 1.000 Tartrate-- 1.000 Be++ -2.8200 -2.8200 -2.8200 -2.8200 -2.8200 -2.8200 -2.8200 -2.8200 * logK= -2.820000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Be2-(Malate)2 (aq) formula= Be2(C4H4O5)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 282.1696 g 2 species in reaction 2.000 Malate-- 2.000 Be++ -10.2100 -10.2100 -10.2100 -10.2100 -10.2100 -10.2100 -10.2100 -10.2100 * logK= -10.210000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Be2OH+++ charge= 3 ion size= 6.5 A b= 0.0000 mole wt.= 35.0317 g 3 species in reaction -1.000 H+ 1.000 H2O 2.000 Be++ 3.6389 3.3979 3.1770 2.9352 2.7156 2.5151 2.3315 2.1626 * logK= 3.177000 deltaH= -28.810000 kJ Be3(OH)3+++ charge= 3 ion size= 6.5 A b= 0.0000 mole wt.= 78.0585 g 3 species in reaction -3.000 H+ 3.000 H2O 3.000 Be++ 9.9722 9.4079 8.8910 8.3252 7.8110 7.3419 6.9120 6.5167 * logK= 8.891000 deltaH= -67.430000 kJ Be5(OH)6++++ charge= 4 ion size= 0.0 A b= 0.0000 mole wt.= 147.1048 g 3 species in reaction -6.000 H+ 6.000 H2O 5.000 Be++ 20.8507 19.7805 18.8000 17.7267 16.7516 15.8617 15.0463 14.2965 * logK= 18.800000 deltaH= -127.900000 kJ Be5(OH)7+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 164.1121 g 3 species in reaction -7.000 H+ 7.000 H2O 5.000 Be++ 27.8643 26.6200 25.4800 24.2322 23.0984 22.0638 21.1158 20.2441 * logK= 25.480000 deltaH= -148.700000 kJ Be6(OH)8++++ charge= 4 ion size= 0.0 A b= 0.0000 mole wt.= 190.1316 g 3 species in reaction -8.000 H+ 8.000 H2O 6.000 Be++ 30.5231 28.7784 27.1800 25.4304 23.8407 22.3900 21.0608 19.8385 * logK= 27.180000 deltaH= -208.500000 kJ BeBr+ charge= 1 ion size= 5.0 A b= 0.0000 mole wt.= 88.9162 g 2 species in reaction 1.000 Br- 1.000 Be++ -.1000 -.1000 -.1000 -.1000 -.1000 -.1000 -.1000 -.1000 * logK= -0.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BeCl+ charge= 1 ion size= 5.0 A b= 0.0000 mole wt.= 44.4652 g 2 species in reaction 1.000 Cl- 1.000 Be++ -.1400 -.1400 -.1400 -.1400 -.1400 -.1400 -.1400 -.1400 * logK= -0.140000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BeCO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 69.0214 g 2 species in reaction 1.000 CO3-- 1.000 Be++ -6.2546 -6.2546 -6.2546 -6.2546 -6.2546 -6.2546 -6.2546 -6.2546 * logK= -6.254600 deltaH= 0.000000 kJ BeEDTA-- formula= Be(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 297.2256 g 2 species in reaction 1.000 EDTA---- 1.000 Be++ -10.7526 -11.0957 -11.4100 -11.7541 -12.0667 -12.3519 -12.6133 -12.8537 * logK= -11.410000 deltaH= -41.000000 kJ BeF+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 28.0106 g 2 species in reaction 1.000 F- 1.000 Be++ -5.2500 -5.2500 -5.2500 -5.2500 -5.2500 -5.2500 -5.2500 -5.2500 * logK= -5.250000 deltaH= 0.000000 kJ BeF2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 47.0090 g 2 species in reaction 2.000 F- 1.000 Be++ -9.2441 -9.2107 -9.1800 -9.1464 -9.1159 -9.0881 -9.0626 -9.0392 * logK= -9.180000 deltaH= 4.000000 kJ BeF3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 66.0074 g 2 species in reaction 3.000 F- 1.000 Be++ -12.0583 -11.9913 -11.9300 -11.8629 -11.8019 -11.7462 -11.6952 -11.6483 * logK= -11.930000 deltaH= 8.000000 kJ BeF4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 85.0058 g 2 species in reaction 4.000 F- 1.000 Be++ -14.0583 -13.9913 -13.9300 -13.8629 -13.8019 -13.7462 -13.6952 -13.6483 * logK= -13.930000 deltaH= 8.000000 kJ BeH-(Sal)2- formula= BeH(OC6H4COO)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 282.2337 g 3 species in reaction 1.000 H+ 2.000 Sal-- 1.000 Be++ -28.7100 -28.7100 -28.7100 -28.7100 -28.7100 -28.7100 -28.7100 -28.7100 * logK= -28.710000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BeH-Citrate (aq) formula= BeH[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 199.1214 g 3 species in reaction 1.000 H+ 1.000 Citrate--- 1.000 Be++ -9.3500 -9.3500 -9.3500 -9.3500 -9.3500 -9.3500 -9.3500 -9.3500 * logK= -9.350000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BeH-Malate+ formula= BeH(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 142.0927 g 3 species in reaction 1.000 H+ 1.000 Malate-- 1.000 Be++ -6.7200 -6.7200 -6.7200 -6.7200 -6.7200 -6.7200 -6.7200 -6.7200 * logK= -6.720000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BeH-Sal+ formula= BeH(OC6H4COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 146.1269 g 3 species in reaction 1.000 H+ 1.000 Sal-- 1.000 Be++ -15.7000 -15.7000 -15.7000 -15.7000 -15.7000 -15.7000 -15.7000 -15.7000 * logK= -15.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BeH-Succinate+ formula= BeH[(CH2)2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 126.0933 g 3 species in reaction 1.000 H+ 1.000 Be++ 1.000 Succinate-- -7.4800 -7.4800 -7.4800 -7.4800 -7.4800 -7.4800 -7.4800 -7.4800 * logK= -7.480000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BeH2-(Sal)2 (aq) formula= BeH2(OC6H4COO)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 283.2416 g 3 species in reaction 2.000 H+ 2.000 Sal-- 1.000 Be++ -31.8100 -31.8100 -31.8100 -31.8100 -31.8100 -31.8100 -31.8100 -31.8100 * logK= -31.810000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BeH2-(Succinate)2 (aq) formula= BeH2[(CH2)2(COO)2]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 243.1744 g 3 species in reaction 2.000 H+ 1.000 Be++ 2.000 Succinate-- -15.0900 -15.0900 -15.0900 -15.0900 -15.0900 -15.0900 -15.0900 -15.0900 * logK= -15.090000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BeNO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 71.0171 g 2 species in reaction 1.000 NO3- 1.000 Be++ .4900 .4900 .4900 .4900 .4900 .4900 .4900 .4900 * logK= 0.490000 deltaH= 0.000000 kJ BeNTA- formula= Be[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 197.1287 g 2 species in reaction 1.000 NTA--- 1.000 Be++ -8.6692 -8.8783 -9.0700 -9.2798 -9.4704 -9.6443 -9.8037 -9.9503 * logK= -9.070000 deltaH= -25.000000 kJ BeOH-Sal- formula= BeOH(OC6H4COO)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 162.1263 g 4 species in reaction -1.000 H+ 1.000 Sal-- 1.000 H2O 1.000 Be++ -6.1900 -6.1900 -6.1900 -6.1900 -6.1900 -6.1900 -6.1900 -6.1900 * logK= -6.190000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BeOH-Succinate- formula= BeOH[(CH2)2(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 142.0927 g 4 species in reaction -1.000 H+ 1.000 H2O 1.000 Be++ 1.000 Succinate-- 1.7300 1.7300 1.7300 1.7300 1.7300 1.7300 1.7300 1.7300 * logK= 1.730000 deltaH= 0.000000 kJ BeSO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 105.0738 g 2 species in reaction 1.000 Be++ 1.000 SO4-- -1.7250 -1.9677 -2.1900 -2.4334 -2.6545 -2.8562 -3.0411 -3.2111 * logK= -2.190000 deltaH= -29.000000 kJ BF(OH)3- charge= -1 ion size= 2.5 A b= 0.0000 mole wt.= 80.8303 g 2 species in reaction 1.000 H3BO3 1.000 F- .5231 .4583 .3990 .3340 .2750 .2212 .1718 .1265 * logK= 0.399000 deltaH= -7.740400 kJ BF2(OH)2- charge= -1 ion size= 2.5 A b= 0.0000 mole wt.= 82.8214 g 4 species in reaction 1.000 H3BO3 1.000 H+ 2.000 F- -1.000 H2O -7.5203 -7.5776 -7.6300 -7.6874 -7.7396 -7.7872 -7.8308 -7.8709 * logK= -7.630000 deltaH= -6.840800 kJ BF3OH- charge= -1 ion size= 2.5 A b= 0.0000 mole wt.= 84.8125 g 4 species in reaction 1.000 H3BO3 2.000 H+ 3.000 F- -2.000 H2O -13.5485 -13.3771 -13.2200 -13.0481 -12.8918 -12.7493 -12.6187 -12.4985 * logK= -13.220000 deltaH= 20.489700 kJ BF4- charge= -1 ion size= 2.5 A b= 0.0000 mole wt.= 86.8036 g 4 species in reaction 1.000 H3BO3 3.000 H+ 4.000 F- -3.000 H2O -20.2114 -20.0551 -19.9120 -19.7553 -19.6130 -19.4831 -19.3641 -19.2546 * logK= -19.912000 deltaH= 18.670000 kJ Bi(NO3)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 332.9898 g 2 species in reaction 2.000 NO3- 1.000 Bi+++ -2.5000 -2.5000 -2.5000 -2.5000 -2.5000 -2.5000 -2.5000 -2.5000 * logK= -2.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Bi(OH)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 242.9946 g 3 species in reaction -2.000 H+ 1.000 Bi+++ 2.000 H2O 3.4740 3.4740 3.4740 3.4740 3.4740 3.4740 3.4740 3.4740 * logK= 3.474000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Bi(OH)3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 260.0019 g 3 species in reaction -3.000 H+ 1.000 Bi+++ 3.000 H2O 8.9910 8.9910 8.9910 8.9910 8.9910 8.9910 8.9910 8.9910 * logK= 8.991000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Bi(OH)4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 277.0092 g 3 species in reaction -4.000 H+ 1.000 Bi+++ 4.000 H2O 21.1880 21.1880 21.1880 21.1880 21.1880 21.1880 21.1880 21.1880 * logK= 21.188000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Bi(SCN)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 325.1434 g 2 species in reaction 2.000 SCN- 1.000 Bi+++ -4.3574 -4.0143 -3.7000 -3.3559 -3.0433 -2.7581 -2.4967 -2.2563 * logK= -3.700000 deltaH= 41.000000 kJ Bi(SCN)3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 383.2251 g 2 species in reaction 3.000 SCN- 1.000 Bi+++ -3.6624 -4.0474 -4.4000 -4.7860 -5.1367 -5.4568 -5.7500 -6.0197 * logK= -4.400000 deltaH= -46.000000 kJ Bi(SCN)4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 441.3068 g 2 species in reaction 4.000 SCN- 1.000 Bi+++ -4.7350 -4.9777 -5.2000 -5.4434 -5.6645 -5.8662 -6.0511 -6.2211 * logK= -5.200000 deltaH= -29.000000 kJ Bi(SCN)5-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 499.3885 g 2 species in reaction 5.000 SCN- 1.000 Bi+++ -5.8000 -5.8000 -5.8000 -5.8000 -5.8000 -5.8000 -5.8000 -5.8000 * logK= -5.800000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Bi-DTPA-- formula= Bi(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 597.2903 g 2 species in reaction 1.000 Bi+++ 1.000 DTPA----- -33.9200 -33.9200 -33.9200 -33.9200 -33.9200 -33.9200 -33.9200 -33.9200 * logK= -33.920000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Bi-Glycine++ formula= Bi[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 283.0391 g 2 species in reaction 1.000 Glycine- 1.000 Bi+++ -10.8100 -10.8100 -10.8100 -10.8100 -10.8100 -10.8100 -10.8100 -10.8100 * logK= -10.810000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Bi-HEDTA (aq) formula= Bi(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 484.2177 g 2 species in reaction 1.000 Bi+++ 1.000 HEDTA--- -24.2400 -24.2400 -24.2400 -24.2400 -24.2400 -24.2400 -24.2400 -24.2400 * logK= -24.240000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BiBr++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 288.8840 g 2 species in reaction 1.000 Br- 1.000 Bi+++ -3.0316 -3.1403 -3.2400 -3.3491 -3.4482 -3.5387 -3.6215 -3.6977 * logK= -3.240000 deltaH= -13.000000 kJ BiBr2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 368.7880 g 2 species in reaction 2.000 Br- 1.000 Bi+++ -5.5000 -5.5000 -5.5000 -5.5000 -5.5000 -5.5000 -5.5000 -5.5000 * logK= -5.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BiBr3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 448.6920 g 2 species in reaction 3.000 Br- 1.000 Bi+++ -7.7000 -7.7000 -7.7000 -7.7000 -7.7000 -7.7000 -7.7000 -7.7000 * logK= -7.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BiBr4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 528.5960 g 2 species in reaction 4.000 Br- 1.000 Bi+++ -9.0000 -9.0000 -9.0000 -9.0000 -9.0000 -9.0000 -9.0000 -9.0000 * logK= -9.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BiBr5-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 608.5000 g 2 species in reaction 5.000 Br- 1.000 Bi+++ -9.9000 -9.9000 -9.9000 -9.9000 -9.9000 -9.9000 -9.9000 -9.9000 * logK= -9.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BiCl++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 244.4330 g 2 species in reaction 1.000 Cl- 1.000 Bi+++ -3.3435 -3.4773 -3.6000 -3.7343 -3.8563 -3.9676 -4.0696 -4.1634 * logK= -3.600000 deltaH= -16.000000 kJ BiCl2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 279.8860 g 2 species in reaction 2.000 Cl- 1.000 Bi+++ -5.0831 -5.3007 -5.5000 -5.7182 -5.9164 -6.0973 -6.2631 -6.4155 * logK= -5.500000 deltaH= -26.000000 kJ BiCl3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 315.3390 g 2 species in reaction 3.000 Cl- 1.000 Bi+++ -7.4046 -7.2457 -7.1000 -6.9406 -6.7957 -6.6635 -6.5424 -6.4310 * logK= -7.100000 deltaH= 19.000000 kJ BiCl4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 350.7920 g 2 species in reaction 4.000 Cl- 1.000 Bi+++ -7.8274 -7.9697 -8.1000 -8.2427 -8.3723 -8.4906 -8.5989 -8.6986 * logK= -8.100000 deltaH= -17.000000 kJ BiEDTA- formula= Bi(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 497.1934 g 2 species in reaction 1.000 EDTA---- 1.000 Bi+++ -30.3600 -30.3600 -30.3600 -30.3600 -30.3600 -30.3600 -30.3600 -30.3600 * logK= -30.360000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BiEGTA- formula= Bi(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 585.2994 g 2 species in reaction 1.000 EGTA---- 1.000 Bi+++ -25.9600 -25.9600 -25.9600 -25.9600 -25.9600 -25.9600 -25.9600 -25.9600 * logK= -25.960000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BiH-DTPA- formula= BiH(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 598.2982 g 3 species in reaction 1.000 H+ 1.000 Bi+++ 1.000 DTPA----- -36.7500 -36.7500 -36.7500 -36.7500 -36.7500 -36.7500 -36.7500 -36.7500 * logK= -36.750000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BiH2-DTPA (aq) formula= BiH2(C14H18N3O10) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 599.3061 g 3 species in reaction 2.000 H+ 1.000 Bi+++ 1.000 DTPA----- -38.7700 -38.7700 -38.7700 -38.7700 -38.7700 -38.7700 -38.7700 -38.7700 * logK= -38.770000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BiHEDTA (aq) formula= BiH(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 498.2013 g 3 species in reaction 1.000 H+ 1.000 EDTA---- 1.000 Bi+++ -31.3400 -31.3400 -31.3400 -31.3400 -31.3400 -31.3400 -31.3400 -31.3400 * logK= -31.340000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BiI++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 335.8844 g 2 species in reaction 1.000 Bi+++ 1.000 I- -4.4400 -4.4400 -4.4400 -4.4400 -4.4400 -4.4400 -4.4400 -4.4400 * logK= -4.440000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BiNO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 270.9849 g 2 species in reaction 1.000 NO3- 1.000 Bi+++ -1.5076 -1.6080 -1.7000 -1.8007 -1.8922 -1.9757 -2.0522 -2.1225 * logK= -1.700000 deltaH= -12.000000 kJ BiNTA (aq) formula= Bi[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 397.0965 g 2 species in reaction 1.000 NTA--- 1.000 Bi+++ -20.1200 -20.1200 -20.1200 -20.1200 -20.1200 -20.1200 -20.1200 -20.1200 * logK= -20.120000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BiOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 225.9873 g 3 species in reaction -1.000 H+ 1.000 Bi+++ 1.000 H2O 1.3986 1.2412 1.0970 .9392 .7957 .6649 .5450 .4347 * logK= 1.097000 deltaH= -18.810000 kJ BiOH-DTPA--- formula= BiOH(C14H18N3O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 614.2976 g 4 species in reaction -1.000 H+ 1.000 Bi+++ 1.000 DTPA----- 1.000 H2O -30.7900 -30.7900 -30.7900 -30.7900 -30.7900 -30.7900 -30.7900 -30.7900 * logK= -30.790000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BiOH-Glycine+ formula= BiOH[NH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 300.0464 g 4 species in reaction 1.000 Glycine- -1.000 H+ 1.000 Bi+++ 1.000 H2O -7.1500 -7.1500 -7.1500 -7.1500 -7.1500 -7.1500 -7.1500 -7.1500 * logK= -7.150000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BiOH-HEDTA- formula= BiOH(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 501.2250 g 4 species in reaction -1.000 H+ 1.000 Bi+++ 1.000 H2O 1.000 HEDTA--- -18.5700 -18.5700 -18.5700 -18.5700 -18.5700 -18.5700 -18.5700 -18.5700 * logK= -18.570000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BiSCN++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 267.0617 g 2 species in reaction 1.000 SCN- 1.000 Bi+++ -2.7391 -2.4630 -2.2100 -1.9331 -1.6815 -1.4519 -1.2415 -1.0480 * logK= -2.210000 deltaH= 33.000000 kJ Bk(SO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 439.1232 g 2 species in reaction 1.000 Bk+++ 2.000 SO4-- -5.6000 -5.6000 -5.6000 -5.6000 -5.6000 -5.6000 -5.6000 -5.6000 * logK= -5.600000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Bk-(Oxalate)2- formula= Bk[(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 423.0392 g 2 species in reaction 1.000 Bk+++ 2.000 Oxalate-- -10.8600 -10.8600 -10.8600 -10.8600 -10.8600 -10.8600 -10.8600 -10.8600 * logK= -10.860000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Bk-Citrate (aq) formula= Bk[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 436.1013 g 2 species in reaction 1.000 Bk+++ 1.000 Citrate--- -9.8300 -9.8300 -9.8300 -9.8300 -9.8300 -9.8300 -9.8300 -9.8300 * logK= -9.830000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Bk-DTPA-- formula= Bk(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 635.3103 g 2 species in reaction 1.000 Bk+++ 1.000 DTPA----- -26.0200 -26.0200 -26.0200 -26.0200 -26.0200 -26.0200 -26.0200 -26.0200 * logK= -26.020000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Bk-Oxalate+ formula= Bk[(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 335.0196 g 2 species in reaction 1.000 Bk+++ 1.000 Oxalate-- -6.7300 -6.7300 -6.7300 -6.7300 -6.7300 -6.7300 -6.7300 -6.7300 * logK= -6.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BkCl++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 282.4530 g 2 species in reaction 1.000 Cl- 1.000 Bk+++ -.5900 -.5900 -.5900 -.5900 -.5900 -.5900 -.5900 -.5900 * logK= -0.590000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BkEDTA- formula= Bk(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 535.2134 g 2 species in reaction 1.000 Bk+++ 1.000 EDTA---- -20.9600 -20.9600 -20.9600 -20.9600 -20.9600 -20.9600 -20.9600 -20.9600 * logK= -20.960000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BkF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 265.9984 g 2 species in reaction 1.000 Bk+++ 1.000 F- -3.3076 -3.4080 -3.5000 -3.6007 -3.6922 -3.7757 -3.8522 -3.9225 * logK= -3.500000 deltaH= -12.000000 kJ BkNTA (aq) formula= Bk[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 435.1165 g 2 species in reaction 1.000 NTA--- 1.000 Bk+++ -13.5800 -13.5800 -13.5800 -13.5800 -13.5800 -13.5800 -13.5800 -13.5800 * logK= -13.580000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BkOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 264.0073 g 3 species in reaction -1.000 H+ 1.000 Bk+++ 1.000 H2O 6.1470 6.1470 6.1470 6.1470 6.1470 6.1470 6.1470 6.1470 * logK= 6.147000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BkSCN++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 305.0817 g 2 species in reaction 1.000 Bk+++ 1.000 SCN- -1.0359 -1.0693 -1.1000 -1.1336 -1.1641 -1.1919 -1.2174 -1.2408 * logK= -1.100000 deltaH= -4.000000 kJ BkSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 343.0616 g 2 species in reaction 1.000 Bk+++ 1.000 SO4-- -3.7100 -3.7100 -3.7100 -3.7100 -3.7100 -3.7100 -3.7100 -3.7100 * logK= -3.710000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ca(NH3)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 74.1408 g 3 species in reaction -2.000 H+ 2.000 NH4+ 1.000 Ca++ 18.5900 18.5900 18.5900 18.5900 18.5900 18.5900 18.5900 18.5900 * logK= 18.590000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ca(NTA)2---- formula= Ca[N(CH2COO)3]2---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 416.3130 g 2 species in reaction 2.000 NTA--- 1.000 Ca++ -10.1931 -9.9253 -9.6800 -9.4115 -9.1675 -8.9448 -8.7408 -8.5532 * logK= -9.680000 deltaH= 32.000000 kJ Ca-(Lactate)2 (aq) formula= Ca[CH3CH(OH)COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 218.2214 g 2 species in reaction 2.000 Lactate- 1.000 Ca++ -2.4800 -2.4800 -2.4800 -2.4800 -2.4800 -2.4800 -2.4800 -2.4800 * logK= -2.480000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ca-Acetate+ formula= Ca(CH3COO)++ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 99.1245 g 2 species in reaction 1.000 Acetate- 1.000 Ca++ -1.1159 -1.1493 -1.1800 -1.2136 -1.2441 -1.2719 -1.2974 -1.3208 * logK= -1.180000 deltaH= -4.000000 kJ Ca-Benzoate+ formula= Ca(C6H5COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 161.1953 g 2 species in reaction 1.000 Benzoate- 1.000 Ca++ -.7400 -.7400 -.7400 -.7400 -.7400 -.7400 -.7400 -.7400 * logK= -0.740000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ca-Butyrate+ formula= Ca[CH3CH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 127.1781 g 2 species in reaction 1.000 Butyrate- 1.000 Ca++ -.8863 -.9143 -.9400 -.9681 -.9936 -1.0169 -1.0382 -1.0579 * logK= -0.940000 deltaH= -3.347200 kJ Ca-Citrate- formula= Ca[C3H5O(COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 229.1813 g 2 species in reaction 1.000 Citrate--- 1.000 Ca++ -4.9983 -4.9313 -4.8700 -4.8029 -4.7419 -4.6862 -4.6352 -4.5883 * logK= -4.870000 deltaH= 8.000000 kJ Ca-DTPA--- formula= Ca(C14H18N3O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 428.3903 g 2 species in reaction 1.000 DTPA----- 1.000 Ca++ -13.2848 -13.0840 -12.9000 -12.6986 -12.5156 -12.3486 -12.1956 -12.0549 * logK= -12.900000 deltaH= 24.000000 kJ Ca-Formate+ formula= Ca[HCOO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 85.0977 g 2 species in reaction 1.000 Formate- 1.000 Ca++ -1.3659 -1.3993 -1.4300 -1.4636 -1.4941 -1.5219 -1.5474 -1.5708 * logK= -1.430000 deltaH= -4.000000 kJ Ca-Glutamate (aq) formula= Ca(C5H7NO4) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 185.1946 g 2 species in reaction 1.000 Glutamate-- 1.000 Ca++ -2.0600 -2.0600 -2.0600 -2.0600 -2.0600 -2.0600 -2.0600 -2.0600 * logK= -2.060000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ca-Glutarate (aq) formula= Ca[C3H6(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 170.1800 g 2 species in reaction 1.000 Ca++ 1.000 Glutarate-- -2.0500 -2.0500 -2.0500 -2.0500 -2.0500 -2.0500 -2.0500 -2.0500 * logK= -2.050000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ca-Glycine+ formula= Ca[NH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 114.1391 g 2 species in reaction 1.000 Glycine- 1.000 Ca++ -1.4541 -1.4207 -1.3900 -1.3564 -1.3259 -1.2981 -1.2726 -1.2492 * logK= -1.390000 deltaH= 4.000000 kJ Ca-HEDTA- formula= Ca(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 315.3177 g 2 species in reaction 1.000 Ca++ 1.000 HEDTA--- -9.8229 -9.5970 -9.3900 -9.1634 -8.9576 -8.7697 -8.5976 -8.4393 * logK= -9.390000 deltaH= 27.000000 kJ Ca-iButyrate+ formula= Ca[(CH3)2CHCOO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 127.1781 g 2 species in reaction 1.000 iButyrate- 1.000 Ca++ -.5100 -.5100 -.5100 -.5100 -.5100 -.5100 -.5100 -.5100 * logK= -0.510000 deltaH= 0.000000 kJ Ca-iPhthalate (aq) formula= Ca[C6H4(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 204.1972 g 2 species in reaction 1.000 iPhthalate-- 1.000 Ca++ -2.0000 -2.0000 -2.0000 -2.0000 -2.0000 -2.0000 -2.0000 -2.0000 * logK= -2.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ca-iValerate+ formula= Ca[(CH3)2CHCH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 141.2049 g 2 species in reaction 1.000 iValerate- 1.000 Ca++ -.2000 -.2000 -.2000 -.2000 -.2000 -.2000 -.2000 -.2000 * logK= -0.200000 deltaH= 0.000000 kJ Ca-Lactate+ formula= Ca[CH3CH(OH)COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 129.1507 g 2 species in reaction 1.000 Lactate- 1.000 Ca++ -1.4800 -1.4800 -1.4800 -1.4800 -1.4800 -1.4800 -1.4800 -1.4800 * logK= -1.480000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ca-Malate (aq) formula= Ca(C4H4O5) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 172.1526 g 2 species in reaction 1.000 Malate-- 1.000 Ca++ -2.7360 -2.7277 -2.7200 -2.7116 -2.7040 -2.6970 -2.6907 -2.6848 * logK= -2.720000 deltaH= 1.000000 kJ Ca-Malonate (aq) formula= Ca[CH2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 142.1264 g 2 species in reaction 1.000 Malonate-- 1.000 Ca++ -2.3461 -2.4264 -2.5000 -2.5806 -2.6538 -2.7205 -2.7817 -2.8380 * logK= -2.500000 deltaH= -9.600000 kJ Ca-Oxalate (aq) formula= Ca[(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 128.0996 g 2 species in reaction 1.000 Oxalate-- 1.000 Ca++ -3.1900 -3.1900 -3.1900 -3.1900 -3.1900 -3.1900 -3.1900 -3.1900 * logK= -3.190000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ca-Phthalate (aq) formula= Ca[C6H4(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 204.1972 g 2 species in reaction 1.000 Phthalate-- 1.000 Ca++ -2.4500 -2.4500 -2.4500 -2.4500 -2.4500 -2.4500 -2.4500 -2.4500 * logK= -2.450000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ca-Propionate+ formula= Ca(CH3CH2COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 113.1513 g 2 species in reaction 1.000 Propionate- 1.000 Ca++ -.8763 -.9043 -.9300 -.9581 -.9836 -1.0069 -1.0282 -1.0479 * logK= -0.930000 deltaH= -3.347200 kJ Ca-Sal (aq) formula= Ca(OC6H4COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 176.1868 g 2 species in reaction 1.000 Sal-- 1.000 Ca++ -4.0500 -4.0500 -4.0500 -4.0500 -4.0500 -4.0500 -4.0500 -4.0500 * logK= -4.050000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ca-Succinate (aq) formula= Ca[(CH2)2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 156.1532 g 2 species in reaction 1.000 Ca++ 1.000 Succinate-- -1.8797 -1.9425 -2.0000 -2.0629 -2.1201 -2.1723 -2.2201 -2.2641 * logK= -2.000000 deltaH= -7.500000 kJ Ca-Tartrate (aq) formula= Ca(C4H4O6) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 188.1520 g 2 species in reaction 1.000 Tartrate-- 1.000 Ca++ -2.9283 -2.8613 -2.8000 -2.7329 -2.6719 -2.6162 -2.5652 -2.5183 * logK= -2.800000 deltaH= 8.000000 kJ Ca-Valerate+ formula= Ca[CH3(CH2)3COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 141.2049 g 2 species in reaction 1.000 Valerate- 1.000 Ca++ -.3000 -.3000 -.3000 -.3000 -.3000 -.3000 -.3000 -.3000 * logK= -0.300000 deltaH= 0.000000 kJ Ca2-DTPA- formula= Ca2(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 468.4703 g 2 species in reaction 1.000 DTPA----- 2.000 Ca++ -15.7900 -15.7900 -15.7900 -15.7900 -15.7900 -15.7900 -15.7900 -15.7900 * logK= -15.790000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ca2Fe(CN)6 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 292.1132 g 3 species in reaction 1.000 Fe++ 2.000 Ca++ 6.000 CN- -46.2151 -43.2847 -40.6000 -37.6613 -34.9912 -32.5546 -30.3221 -28.2690 * logK= -40.600000 deltaH= 350.200800 kJ Ca2UO2(CO3)3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 530.2154 g 3 species in reaction 1.000 UO2++ 3.000 CO3-- 2.000 Ca++ -30.5500 -30.5500 -30.5500 -30.5500 -30.5500 -30.5500 -30.5500 -30.5500 * logK= -30.550000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ca[Ethylenediamine]++ formula= Ca[C2H4(NH2)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 100.1786 g 2 species in reaction 1.000 Ca++ 1.000 EtDiAm -.1100 -.1100 -.1100 -.1100 -.1100 -.1100 -.1100 -.1100 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -0.110000 deltaH= 0.000000 kJ CaCl+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 75.5330 g 2 species in reaction 1.000 Cl- 1.000 Ca++ -.3359 -.3693 -.4000 -.4336 -.4641 -.4919 -.5174 -.5408 * logK= -0.400000 deltaH= -4.000000 kJ CaCO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 100.0892 g 2 species in reaction 1.000 CO3-- 1.000 Ca++ -2.4034 -2.4061 -2.4818 -2.6348 -2.8250 -3.0274 -3.2227 -3.3964 * logK= -3.220000 deltaH= -16.000000 kJ * analytic data = -1228.732 -.299444 35512.75 485.518 0 0 0 CaCrO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 156.0736 g 2 species in reaction 1.000 CrO4-- 1.000 Ca++ -2.7700 -2.7700 -2.7700 -2.7700 -2.7700 -2.7700 -2.7700 -2.7700 * logK= -2.770000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CaEDTA-- formula= Ca(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 328.2934 g 2 species in reaction 1.000 EDTA---- 1.000 Ca++ -12.7927 -12.6087 -12.4400 -12.2554 -12.0876 -11.9346 -11.7943 -11.6654 * logK= -12.440000 deltaH= 22.000000 kJ CaEGTA-- formula= Ca(C14H20N2O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 416.3994 g 2 species in reaction 1.000 EGTA---- 1.000 Ca++ -13.0991 -12.8230 -12.5700 -12.2931 -12.0415 -11.8119 -11.6015 -11.4080 * logK= -12.570000 deltaH= 33.000000 kJ CaF+ charge= 1 ion size= 5.0 A b= 0.0000 mole wt.= 59.0784 g 2 species in reaction 1.000 F- 1.000 Ca++ -.9155 -1.0327 -1.1400 -1.2575 -1.3642 -1.4616 -1.5509 -1.6330 * logK= -1.140000 deltaH= -14.000000 kJ CaFe(CN)6- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 252.0332 g 3 species in reaction 1.000 Fe+++ 1.000 Ca++ 6.000 CN- -51.0959 -48.6609 -46.4300 -43.9881 -41.7694 -39.7446 -37.8895 -36.1835 * logK= -46.430000 deltaH= 291.000000 kJ CaFe(CN)6-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 252.0332 g 3 species in reaction 1.000 Fe++ 1.000 Ca++ 6.000 CN- -44.6638 -41.7602 -39.1000 -36.1881 -33.5425 -31.1281 -28.9160 -26.8817 * logK= -39.100000 deltaH= 347.000000 kJ CaH-Citrate (aq) formula= CaH[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 230.1892 g 3 species in reaction 1.000 H+ 1.000 Citrate--- 1.000 Ca++ -9.2672 -9.2614 -9.2560 -9.2501 -9.2448 -9.2399 -9.2355 -9.2314 * logK= -9.256000 deltaH= 0.700000 kJ CaH-DTPA-- formula= CaH(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 429.3982 g 3 species in reaction 1.000 H+ 1.000 DTPA----- 1.000 Ca++ -19.6500 -19.6500 -19.6500 -19.6500 -19.6500 -19.6500 -19.6500 -19.6500 * logK= -19.650000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CaH-Glutamate+ formula= CaH(C5H7NO4)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 186.2025 g 3 species in reaction 1.000 Glutamate-- 1.000 H+ 1.000 Ca++ -11.1300 -11.1300 -11.1300 -11.1300 -11.1300 -11.1300 -11.1300 -11.1300 * logK= -11.130000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CaH-Glutarate+ formula= CaH[C3H6(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 171.1879 g 3 species in reaction 1.000 H+ 1.000 Ca++ 1.000 Glutarate-- -6.4200 -6.4200 -6.4200 -6.4200 -6.4200 -6.4200 -6.4200 -6.4200 * logK= -6.420000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CaH-Glycine++ formula= CaH[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 115.1470 g 3 species in reaction 1.000 Glycine- 1.000 H+ 1.000 Ca++ -10.6528 -10.3487 -10.0700 -9.7650 -9.4878 -9.2349 -9.0032 -8.7901 * logK= -10.070000 deltaH= 36.350000 kJ CaH-Malate+ formula= CaH(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 173.1605 g 3 species in reaction 1.000 H+ 1.000 Malate-- 1.000 Ca++ -6.6022 -6.5437 -6.4900 -6.4313 -6.3779 -6.3292 -6.2846 -6.2435 * logK= -6.490000 deltaH= 7.000000 kJ CaH-Malonate+ formula= CaH[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 143.1343 g 3 species in reaction 1.000 Malonate-- 1.000 H+ 1.000 Ca++ -6.4710 -6.5122 -6.5500 -6.5914 -6.6290 -6.6633 -6.6947 -6.7236 * logK= -6.550000 deltaH= -4.930000 kJ CaH-Phthalate+ formula= CaH[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 205.2051 g 3 species in reaction 1.000 Phthalate-- 1.000 H+ 1.000 Ca++ -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 * logK= -6.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CaH-Sal+ formula= CaH(OC6H4COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 177.1947 g 3 species in reaction 1.000 H+ 1.000 Sal-- 1.000 Ca++ -14.6730 -14.4262 -14.2000 -13.9524 -13.7275 -13.5223 -13.3342 -13.1613 * logK= -14.200000 deltaH= 29.500000 kJ CaH-Succinate+ formula= CaH[(CH2)2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 157.1611 g 3 species in reaction 1.000 H+ 1.000 Ca++ 1.000 Succinate-- -6.5901 -6.6579 -6.7200 -6.7880 -6.8497 -6.9061 -6.9577 -7.0052 * logK= -6.720000 deltaH= -8.100000 kJ CaH-Tartrate+ formula= CaH(C4H4O6) charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 189.1599 g 3 species in reaction 1.000 Tartrate-- 1.000 H+ 1.000 Ca++ -6.0003 -5.9271 -5.8600 -5.7866 -5.7199 -5.6590 -5.6032 -5.5519 * logK= -5.860000 deltaH= 8.750000 kJ CaH2-Citrate+ formula= CaH2[C3H5O(COO)3]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 231.1971 g 3 species in reaction 2.000 H+ 1.000 Citrate--- 1.000 Ca++ -12.5900 -12.5900 -12.5900 -12.5900 -12.5900 -12.5900 -12.5900 -12.5900 * logK= -12.590000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CaH2BO3+ charge= 1 ion size= 2.5 A b= 0.0000 mole wt.= 100.9040 g 3 species in reaction 1.000 H3BO3 -1.000 H+ 1.000 Ca++ 7.7526 7.6103 7.4800 7.3373 7.2077 7.0894 6.9811 6.8814 * logK= 7.480000 deltaH= -17.000000 kJ CaH2PO4+ charge= 1 ion size= 5.4 A b= 0.0000 mole wt.= 137.0672 g 3 species in reaction 2.000 H+ 1.000 PO4--- 1.000 Ca++ -21.0192 -20.9690 -20.9230 -20.8727 -20.8269 -20.7852 -20.7469 -20.7117 * logK= -20.923000 deltaH= 6.000000 kJ CaHCO3+ charge= 1 ion size= 6.0 A b= 0.0000 mole wt.= 101.0971 g 3 species in reaction 1.000 H+ 1.000 CO3-- 1.000 Ca++ -11.4444 -11.4539 -11.4340 -11.3975 -11.3707 -11.3722 -11.4159 -11.5119 * logK= -11.434000 deltaH= 0.000000 kJ * analytic data = 1202.622 .33673 -31863.05 -478.782 0 0 0 CaHEDTA- formula= CaH(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 329.3013 g 3 species in reaction 1.000 H+ 1.000 EDTA---- 1.000 Ca++ -15.9700 -15.9700 -15.9700 -15.9700 -15.9700 -15.9700 -15.9700 -15.9700 * logK= -15.970000 deltaH= 0.000000 kJ CaHEGTA- formula= CaH(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 417.4073 g 3 species in reaction 1.000 EGTA---- 1.000 H+ 1.000 Ca++ -16.8100 -16.8100 -16.8100 -16.8100 -16.8100 -16.8100 -16.8100 -16.8100 * logK= -16.810000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CaHPO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 136.0593 g 3 species in reaction 1.000 H+ 1.000 PO4--- 1.000 Ca++ -15.0831 -15.0580 -15.0350 -15.0098 -14.9870 -14.9661 -14.9470 -14.9294 * logK= -15.035000 deltaH= 3.000000 kJ CaMoO4(aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 200.0176 g 2 species in reaction 1.000 MoO4-- 1.000 Ca++ -2.4562 -2.5156 -2.5700 -2.6296 -2.6837 -2.7331 -2.7784 -2.8200 * logK= -2.570000 deltaH= -7.100000 kJ CaNH3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 57.1104 g 3 species in reaction -1.000 H+ 1.000 NH4+ 1.000 Ca++ 9.0400 9.0400 9.0400 9.0400 9.0400 9.0400 9.0400 9.0400 * logK= 9.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CaNO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 102.0849 g 2 species in reaction 1.000 NO3- 1.000 Ca++ -.5866 -.5414 -.5000 -.4547 -.4135 -.3759 -.3415 -.3099 * logK= -0.500000 deltaH= 5.400000 kJ CaNTA- formula= Ca[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 228.1965 g 2 species in reaction 1.000 NTA--- 1.000 Ca++ -7.8312 -7.7836 -7.7400 -7.6923 -7.6489 -7.6093 -7.5730 -7.5396 * logK= -7.740000 deltaH= 5.690000 kJ CaOH+ charge= 1 ion size= 6.0 A b= 0.0000 mole wt.= 57.0873 g 3 species in reaction -1.000 H+ 1.000 H2O 1.000 Ca++ 13.7249 13.1885 12.6970 12.1590 11.6702 11.2242 10.8155 10.4396 * logK= 12.697000 deltaH= -64.110000 kJ CaPO4- charge= -1 ion size= 5.4 A b= 0.0000 mole wt.= 135.0514 g 2 species in reaction 1.000 PO4--- 1.000 Ca++ -6.2520 -6.3606 -6.4600 -6.5688 -6.6677 -6.7580 -6.8407 -6.9167 * logK= -6.460000 deltaH= -12.970400 kJ CaS2O3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 152.2062 g 2 species in reaction 1.000 S2O3-- 1.000 Ca++ -1.9383 -1.9601 -1.9800 -2.0018 -2.0216 -2.0397 -2.0563 -2.0715 * logK= -1.980000 deltaH= -2.600000 kJ CaSeO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 183.0376 g 2 species in reaction 1.000 SeO4-- 1.000 Ca++ -2.0000 -2.0000 -2.0000 -2.0000 -2.0000 -2.0000 -2.0000 -2.0000 * logK= -2.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CaSO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 120.1422 g 2 species in reaction 1.000 Ca++ 1.000 SO3-- -2.6200 -2.6200 -2.6200 -2.6200 -2.6200 -2.6200 -2.6200 -2.6200 * logK= -2.620000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CaSO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 136.1416 g 2 species in reaction 1.000 Ca++ 1.000 SO4-- -2.2462 -2.3056 -2.3600 -2.4196 -2.4737 -2.5231 -2.5684 -2.6100 * logK= -2.360000 deltaH= -7.100000 kJ CaUO2(CO3)3-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 490.1354 g 3 species in reaction 1.000 UO2++ 3.000 CO3-- 1.000 Ca++ -25.4000 -25.4000 -25.4000 -25.4000 -25.4000 -25.4000 -25.4000 -25.4000 * logK= -25.400000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CaWO4(aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 287.9276 g 2 species in reaction 1.000 WO4-- 1.000 Ca++ -2.4562 -2.5156 -2.5700 -2.6296 -2.6837 -2.7331 -2.7784 -2.8200 * logK= -2.570000 deltaH= -7.100000 kJ Cd(CN)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 164.4348 g 2 species in reaction 1.000 Cd++ 2.000 CN- -11.9906 -11.5363 -11.1200 -10.6643 -10.2503 -9.8725 -9.5264 -9.2080 * logK= -11.120000 deltaH= 54.300000 kJ Cd(CN)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 190.4525 g 2 species in reaction 1.000 Cd++ 3.000 CN- -17.0979 -16.3423 -15.6500 -14.8922 -14.2038 -13.5755 -12.9998 -12.4704 * logK= -15.650000 deltaH= 90.300000 kJ Cd(CN)4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 216.4702 g 2 species in reaction 1.000 Cd++ 4.000 CN- -19.7158 -18.7786 -17.9200 -16.9801 -16.1262 -15.3469 -14.6329 -13.9763 * logK= -17.920000 deltaH= 112.000000 kJ Cd(CO3)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 232.4178 g 2 species in reaction 1.000 Cd++ 2.000 CO3-- -7.2300 -7.2300 -7.2300 -7.2300 -7.2300 -7.2300 -7.2300 -7.2300 * logK= -7.230000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd(H2BO3)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 234.0474 g 3 species in reaction 2.000 H3BO3 -2.000 H+ 1.000 Cd++ 15.0100 15.0100 15.0100 15.0100 15.0100 15.0100 15.0100 15.0100 * logK= 15.010000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd(HS)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 178.5432 g 2 species in reaction 1.000 Cd++ 2.000 HS- -15.3100 -15.3100 -15.3100 -15.3100 -15.3100 -15.3100 -15.3100 -15.3100 * logK= -15.310000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd(HS)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 211.6151 g 2 species in reaction 1.000 Cd++ 3.000 HS- -17.1100 -17.1100 -17.1100 -17.1100 -17.1100 -17.1100 -17.1100 -17.1100 * logK= -17.110000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd(HS)4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 244.6870 g 2 species in reaction 1.000 Cd++ 4.000 HS- -19.3100 -19.3100 -19.3100 -19.3100 -19.3100 -19.3100 -19.3100 -19.3100 * logK= -19.310000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd(NH3)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 146.4602 g 3 species in reaction -2.000 H+ 1.000 Cd++ 2.000 NH4+ 15.1646 14.5203 13.9300 13.2839 12.6968 12.1610 11.6701 11.2187 * logK= 13.930000 deltaH= -77.000000 kJ Cd(NH3)3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 163.4906 g 3 species in reaction -3.000 H+ 1.000 Cd++ 3.000 NH4+ 23.7220 22.7346 21.8300 20.8398 19.9401 19.1191 18.3669 17.6751 * logK= 21.830000 deltaH= -118.000000 kJ Cd(NH3)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 180.5210 g 3 species in reaction -4.000 H+ 1.000 Cd++ 4.000 NH4+ 32.8110 31.4797 30.2600 28.9249 27.7119 26.6049 25.5906 24.6579 * logK= 30.260000 deltaH= -159.100000 kJ Cd(NO2)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 204.4104 g 2 species in reaction 1.000 Cd++ 2.000 NO2- -3.8126 -3.6703 -3.5400 -3.3973 -3.2677 -3.1494 -3.0411 -2.9414 * logK= -3.540000 deltaH= 17.000000 kJ Cd(NO3)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 236.4092 g 2 species in reaction 2.000 NO3- 1.000 Cd++ -.2000 -.2000 -.2000 -.2000 -.2000 -.2000 -.2000 -.2000 * logK= -0.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd(NTA)2---- formula= Cd[N(CH2COO)3]2---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 488.6324 g 2 species in reaction 2.000 NTA--- 1.000 Cd++ -15.7033 -15.3936 -15.1100 -14.7995 -14.5174 -14.2600 -14.0241 -13.8072 * logK= -15.110000 deltaH= 37.000000 kJ Cd(OH)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 146.4140 g 3 species in reaction -2.000 H+ 1.000 Cd++ 2.000 H2O 20.2940 20.2940 20.2940 20.2940 20.2940 20.2940 20.2940 20.2940 * logK= 20.294000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd(OH)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 163.4213 g 3 species in reaction -3.000 H+ 1.000 Cd++ 3.000 H2O 33.3000 33.3000 33.3000 33.3000 33.3000 33.3000 33.3000 33.3000 * logK= 33.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd(OH)4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 180.4286 g 3 species in reaction -4.000 H+ 1.000 Cd++ 4.000 H2O 47.2880 47.2880 47.2880 47.2880 47.2880 47.2880 47.2880 47.2880 * logK= 47.288000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd(S2O3)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 336.6518 g 2 species in reaction 2.000 S2O3-- 1.000 Cd++ -6.3994 -6.3475 -6.3000 -6.2480 -6.2007 -6.1576 -6.1180 -6.0817 * logK= -6.300000 deltaH= 6.200000 kJ Cd(S2O3)3---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 448.7780 g 2 species in reaction 3.000 S2O3-- 1.000 Cd++ -6.4000 -6.4000 -6.4000 -6.4000 -6.4000 -6.4000 -6.4000 -6.4000 * logK= -6.400000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd(SCN)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 228.5628 g 2 species in reaction 1.000 Cd++ 2.000 SCN- -3.0888 -2.8963 -2.7200 -2.5270 -2.3516 -2.1916 -2.0450 -1.9101 * logK= -2.720000 deltaH= 23.000000 kJ Cd(SCN)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 286.6445 g 2 species in reaction 1.000 Cd++ 3.000 SCN- -3.3631 -3.0953 -2.8500 -2.5815 -2.3375 -2.1148 -1.9108 -1.7232 * logK= -2.850000 deltaH= 32.000000 kJ Cd(SCN)4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 344.7262 g 2 species in reaction 1.000 Cd++ 4.000 SCN- -2.7169 -2.4993 -2.3000 -2.0818 -1.8836 -1.7027 -1.5369 -1.3845 * logK= -2.300000 deltaH= 26.000000 kJ Cd(SeO3)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 366.3158 g 3 species in reaction -2.000 H+ 1.000 Cd++ 2.000 HSeO3- 10.8800 10.8800 10.8800 10.8800 10.8800 10.8800 10.8800 10.8800 * logK= 10.880000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd(SO3)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 272.5238 g 2 species in reaction 1.000 Cd++ 2.000 SO3-- -5.0200 -5.0200 -5.0200 -5.0200 -5.0200 -5.0200 -5.0200 -5.0200 * logK= -5.020000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd(SO4)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 304.5226 g 2 species in reaction 1.000 Cd++ 2.000 SO4-- -3.5000 -3.5000 -3.5000 -3.5000 -3.5000 -3.5000 -3.5000 -3.5000 * logK= -3.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd-(Acetate)2 (aq) formula= Cd(CH3COO)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 230.4884 g 2 species in reaction 2.000 Acetate- 1.000 Cd++ -2.4795 -2.6050 -2.7200 -2.8459 -2.9602 -3.0646 -3.1602 -3.2482 * logK= -2.720000 deltaH= -15.000000 kJ Cd-(Acetate)3- formula= Cd(CH3COO)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 289.5329 g 2 species in reaction 3.000 Acetate- 1.000 Cd++ -2.7495 -2.8750 -2.9900 -3.1159 -3.2302 -3.3346 -3.4302 -3.5182 * logK= -2.990000 deltaH= -15.000000 kJ Cd-(Benzoate)2 (aq) formula= Cd(C6H5COO)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 354.6300 g 2 species in reaction 1.000 Cd++ 2.000 Benzoate- -2.3600 -2.3600 -2.3600 -2.3600 -2.3600 -2.3600 -2.3600 -2.3600 * logK= -2.360000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd-(Citrate)2---- formula= Cd[C3H5O(COO)3]2---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 490.6020 g 2 species in reaction 2.000 Citrate--- 1.000 Cd++ -5.6193 -5.7867 -5.9400 -6.1078 -6.2603 -6.3995 -6.5270 -6.6442 * logK= -5.940000 deltaH= -20.000000 kJ Cd-(Glutamate)2-- formula= Cd(C5H7NO4)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 402.6286 g 2 species in reaction 2.000 Glutamate-- 1.000 Cd++ -7.5900 -7.5900 -7.5900 -7.5900 -7.5900 -7.5900 -7.5900 -7.5900 * logK= -7.590000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd-(Glycine)2 (aq) formula= Cd[NH2CH2COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 260.5176 g 2 species in reaction 2.000 Glycine- 1.000 Cd++ -8.7527 -8.5687 -8.4000 -8.2154 -8.0476 -7.8946 -7.7543 -7.6254 * logK= -8.400000 deltaH= 22.000000 kJ Cd-(Glycine)3- formula= Cd[NH2CH2COO]3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 334.5767 g 2 species in reaction 3.000 Glycine- 1.000 Cd++ -11.2612 -10.9683 -10.7000 -10.4063 -10.1394 -9.8959 -9.6728 -9.4676 * logK= -10.700000 deltaH= 35.000000 kJ Cd-(iPhthalate)2-- formula= Cd[C6H4(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 440.6338 g 2 species in reaction 2.000 iPhthalate-- 1.000 Cd++ -2.9900 -2.9900 -2.9900 -2.9900 -2.9900 -2.9900 -2.9900 -2.9900 * logK= -2.990000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd-(Lactate)2 (aq) formula= Cd[CH3CH(OH)COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 290.5408 g 2 species in reaction 2.000 Lactate- 1.000 Cd++ -2.6900 -2.6900 -2.6900 -2.6900 -2.6900 -2.6900 -2.6900 -2.6900 * logK= -2.690000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd-(Lactate)3- formula= Cd[CH3CH(OH)COO]3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 379.6115 g 2 species in reaction 3.000 Lactate- 1.000 Cd++ -3.1100 -3.1100 -3.1100 -3.1100 -3.1100 -3.1100 -3.1100 -3.1100 * logK= -3.110000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd-(Oxalate)2-- formula= Cd[(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 288.4386 g 2 species in reaction 1.000 Cd++ 2.000 Oxalate-- -4.9400 -4.9400 -4.9400 -4.9400 -4.9400 -4.9400 -4.9400 -4.9400 * logK= -4.940000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd-(Phthalate)2-- formula= Cd[C6H4(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 440.6338 g 2 species in reaction 2.000 Phthalate-- 1.000 Cd++ -3.6900 -3.6900 -3.6900 -3.6900 -3.6900 -3.6900 -3.6900 -3.6900 * logK= -3.690000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd-(Propionate)2 (aq) formula= Cd(CH3CH2COO)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 258.5420 g 2 species in reaction 2.000 Propionate- 1.000 Cd++ -2.5700 -2.5700 -2.5700 -2.5700 -2.5700 -2.5700 -2.5700 -2.5700 * logK= -2.570000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd-(Succinate)2-- formula= Cd[(CH2)2(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 344.5458 g 2 species in reaction 1.000 Cd++ 2.000 Succinate-- -3.5000 -3.5000 -3.5000 -3.5000 -3.5000 -3.5000 -3.5000 -3.5000 * logK= -3.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd-(Succinate)3---- formula= Cd[(CH2)2(COO)2]3---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 460.6190 g 2 species in reaction 1.000 Cd++ 3.000 Succinate-- -3.3800 -3.3800 -3.3800 -3.3800 -3.3800 -3.3800 -3.3800 -3.3800 * logK= -3.380000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd-(Tartrate)2-- formula= Cd(C4H4O6)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 408.5434 g 2 species in reaction 2.000 Tartrate-- 1.000 Cd++ -4.0800 -4.0800 -4.0800 -4.0800 -4.0800 -4.0800 -4.0800 -4.0800 * logK= -4.080000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd-Acetate+ formula= Cd(CH3COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 171.4439 g 2 species in reaction 1.000 Acetate- 1.000 Cd++ -1.7661 -1.8464 -1.9200 -2.0006 -2.0738 -2.1405 -2.2017 -2.2580 * logK= -1.920000 deltaH= -9.600000 kJ Cd-Benzoate+ formula= Cd(C6H5COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 233.5147 g 2 species in reaction 1.000 Cd++ 1.000 Benzoate- -1.8300 -1.8300 -1.8300 -1.8300 -1.8300 -1.8300 -1.8300 -1.8300 * logK= -1.830000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd-Citrate- formula= Cd[C3H5O(COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 301.5007 g 2 species in reaction 1.000 Citrate--- 1.000 Cd++ -4.8517 -4.9187 -4.9800 -5.0471 -5.1081 -5.1638 -5.2148 -5.2617 * logK= -4.980000 deltaH= -8.000000 kJ Cd-DTPA--- formula= Cd(C14H18N3O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 500.7097 g 2 species in reaction 1.000 Cd++ 1.000 DTPA----- -21.9806 -21.5471 -21.1500 -20.7153 -20.3204 -19.9600 -19.6297 -19.3261 * logK= -21.150000 deltaH= 51.800000 kJ Cd-Formate+ formula= Cd[HCOO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 157.4171 g 2 species in reaction 1.000 Cd++ 1.000 Formate- -1.6900 -1.6900 -1.6900 -1.6900 -1.6900 -1.6900 -1.6900 -1.6900 * logK= -1.690000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd-Glutamate (aq) formula= Cd(C5H7NO4) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 257.5140 g 2 species in reaction 1.000 Glutamate-- 1.000 Cd++ -4.6700 -4.6700 -4.6700 -4.6700 -4.6700 -4.6700 -4.6700 -4.6700 * logK= -4.670000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd-Glutarate (aq) formula= Cd[C3H6(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 242.4994 g 2 species in reaction 1.000 Cd++ 1.000 Glutarate-- -2.7097 -2.7933 -2.8700 -2.9539 -3.0302 -3.0997 -3.1635 -3.2221 * logK= -2.870000 deltaH= -10.000000 kJ Cd-Glycine+ formula= Cd[NH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 186.4585 g 2 species in reaction 1.000 Glycine- 1.000 Cd++ -4.8295 -4.7567 -4.6900 -4.6170 -4.5507 -4.4901 -4.4347 -4.3837 * logK= -4.690000 deltaH= 8.700000 kJ Cd-HEDTA- formula= Cd(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 387.6371 g 2 species in reaction 1.000 Cd++ 1.000 HEDTA--- -15.6795 -15.3196 -14.9900 -14.6292 -14.3013 -14.0021 -13.7280 -13.4759 * logK= -14.990000 deltaH= 43.000000 kJ Cd-iPhthalate (aq) formula= Cd[C6H4(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 276.5166 g 2 species in reaction 1.000 iPhthalate-- 1.000 Cd++ -2.2500 -2.2500 -2.2500 -2.2500 -2.2500 -2.2500 -2.2500 -2.2500 * logK= -2.250000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd-Lactate+ formula= Cd[CH3CH(OH)COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 201.4701 g 2 species in reaction 1.000 Lactate- 1.000 Cd++ -1.7000 -1.7000 -1.7000 -1.7000 -1.7000 -1.7000 -1.7000 -1.7000 * logK= -1.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd-Malate (aq) formula= Cd(C4H4O5) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 244.4720 g 2 species in reaction 1.000 Malate-- 1.000 Cd++ -3.2300 -3.2300 -3.2300 -3.2300 -3.2300 -3.2300 -3.2300 -3.2300 * logK= -3.230000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd-Malonate (aq) formula= Cd[CH2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 214.4458 g 2 species in reaction 1.000 Malonate-- 1.000 Cd++ -3.3217 -3.3887 -3.4500 -3.5171 -3.5781 -3.6338 -3.6848 -3.7317 * logK= -3.450000 deltaH= -8.000000 kJ Cd-Oxalate (aq) formula= Cd[(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 200.4190 g 2 species in reaction 1.000 Cd++ 1.000 Oxalate-- -3.8900 -3.8900 -3.8900 -3.8900 -3.8900 -3.8900 -3.8900 -3.8900 * logK= -3.890000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd-Phthalate (aq) formula= Cd[C6H4(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 276.5166 g 2 species in reaction 1.000 Phthalate-- 1.000 Cd++ -3.4200 -3.4200 -3.4200 -3.4200 -3.4200 -3.4200 -3.4200 -3.4200 * logK= -3.420000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd-Propionate+ formula= Cd(CH3CH2COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 185.4707 g 2 species in reaction 1.000 Propionate- 1.000 Cd++ -1.6000 -1.6000 -1.6000 -1.6000 -1.6000 -1.6000 -1.6000 -1.6000 * logK= -1.600000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd-Sal (aq) formula= Cd(OC6H4COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 248.5062 g 2 species in reaction 1.000 Sal-- 1.000 Cd++ -6.3300 -6.3300 -6.3300 -6.3300 -6.3300 -6.3300 -6.3300 -6.3300 * logK= -6.330000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd-Succinate (aq) formula= Cd[(CH2)2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 228.4726 g 2 species in reaction 1.000 Cd++ 1.000 Succinate-- -2.6200 -2.6200 -2.6200 -2.6200 -2.6200 -2.6200 -2.6200 -2.6200 * logK= -2.620000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd-Tartrate (aq) formula= Cd(C4H4O6) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 260.4714 g 2 species in reaction 1.000 Tartrate-- 1.000 Cd++ -2.7300 -2.7300 -2.7300 -2.7300 -2.7300 -2.7300 -2.7300 -2.7300 * logK= -2.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd2-DTPA- formula= Cd2(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 613.1091 g 2 species in reaction 2.000 Cd++ 1.000 DTPA----- -24.7400 -24.7400 -24.7400 -24.7400 -24.7400 -24.7400 -24.7400 -24.7400 * logK= -24.740000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd2OH+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 241.8061 g 3 species in reaction -1.000 H+ 2.000 Cd++ 1.000 H2O 10.1315 9.7482 9.3970 9.0126 8.6633 8.3446 8.0525 7.7840 * logK= 9.397000 deltaH= -45.810000 kJ Cd[3-Picoline]++ formula= Cd(C6H7N)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 205.5274 g 2 species in reaction 1.000 3Picol 1.000 Cd++ -1.4200 -1.4200 -1.4200 -1.4200 -1.4200 -1.4200 -1.4200 -1.4200 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -1.420000 deltaH= 0.000000 kJ Cd[3-Picoline]2++ formula= Cd(C6H7N)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 298.6554 g 2 species in reaction 2.000 3Picol 1.000 Cd++ -2.2700 -2.2700 -2.2700 -2.2700 -2.2700 -2.2700 -2.2700 -2.2700 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.270000 deltaH= 0.000000 kJ Cd[3-Picoline]3++ formula= Cd(C6H7N)3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 391.7834 g 2 species in reaction 3.000 3Picol 1.000 Cd++ -3.6000 -3.6000 -3.6000 -3.6000 -3.6000 -3.6000 -3.6000 -3.6000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -3.600000 deltaH= 0.000000 kJ Cd[3-Picoline]4++ formula= Cd(C6H7N)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 484.9114 g 2 species in reaction 4.000 3Picol 1.000 Cd++ -4.0000 -4.0000 -4.0000 -4.0000 -4.0000 -4.0000 -4.0000 -4.0000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -4.000000 deltaH= 0.000000 kJ Cd[4-Picoline]++ formula= Cd(C6H7N)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 205.5274 g 2 species in reaction 1.000 4Picol 1.000 Cd++ -1.5900 -1.5900 -1.5900 -1.5900 -1.5900 -1.5900 -1.5900 -1.5900 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -1.590000 deltaH= 0.000000 kJ Cd[4-Picoline]2++ formula= Cd(C6H7N)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 298.6554 g 2 species in reaction 2.000 4Picol 1.000 Cd++ -2.4000 -2.4000 -2.4000 -2.4000 -2.4000 -2.4000 -2.4000 -2.4000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.400000 deltaH= 0.000000 kJ Cd[4-Picoline]3++ formula= Cd(C6H7N)3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 391.7834 g 2 species in reaction 3.000 4Picol 1.000 Cd++ -3.1800 -3.1800 -3.1800 -3.1800 -3.1800 -3.1800 -3.1800 -3.1800 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -3.180000 deltaH= 0.000000 kJ Cd[4-Picoline]4++ formula= Cd(C6H7N)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 484.9114 g 2 species in reaction 4.000 4Picol 1.000 Cd++ -4.0000 -4.0000 -4.0000 -4.0000 -4.0000 -4.0000 -4.0000 -4.0000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -4.000000 deltaH= 0.000000 kJ Cd[Diethylamine]++ formula= Cd[(CH3CH2)2NH]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 185.5370 g 2 species in reaction 1.000 DiEtAm 1.000 Cd++ -2.7300 -2.7300 -2.7300 -2.7300 -2.7300 -2.7300 -2.7300 -2.7300 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.730000 deltaH= 0.000000 kJ Cd[Diethylamine]2++ formula= Cd[(CH3CH2)2NH]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 258.6746 g 2 species in reaction 2.000 DiEtAm 1.000 Cd++ -4.8600 -4.8600 -4.8600 -4.8600 -4.8600 -4.8600 -4.8600 -4.8600 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -4.860000 deltaH= 0.000000 kJ Cd[Diethylamine]3++ formula= Cd[(CH3CH2)2NH]3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 331.8122 g 2 species in reaction 3.000 DiEtAm 1.000 Cd++ -6.3700 -6.3700 -6.3700 -6.3700 -6.3700 -6.3700 -6.3700 -6.3700 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -6.370000 deltaH= 0.000000 kJ Cd[Diethylamine]4++ formula= Cd[(CH3CH2)2NH]4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 404.9498 g 2 species in reaction 4.000 DiEtAm 1.000 Cd++ -7.3200 -7.3200 -7.3200 -7.3200 -7.3200 -7.3200 -7.3200 -7.3200 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -7.320000 deltaH= 0.000000 kJ Cd[Ethylenediamine]++ formula= Cd[C2H4(NH2)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 172.4980 g 2 species in reaction 1.000 Cd++ 1.000 EtDiAm -5.8662 -5.6281 -5.4100 -5.1713 -4.9543 -4.7564 -4.5750 -4.4082 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -5.410000 deltaH= 28.451200 kJ Cd[Ethylenediamine]2++ formula= Cd[C2H4(NH2)2]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 232.5966 g 2 species in reaction 1.000 Cd++ 2.000 EtDiAm -10.7922 -10.3266 -9.9000 -9.4330 -9.0088 -8.6216 -8.2668 -7.9406 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -9.900000 deltaH= 55.647200 kJ Cd[Ethylenediamine]3++ formula= Cd[C2H4(NH2)2]3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 292.6952 g 2 species in reaction 1.000 Cd++ 3.000 EtDiAm -12.9216 -12.2319 -11.6000 -10.9083 -10.2799 -9.7064 -9.1809 -8.6977 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -11.600000 deltaH= 82.424800 kJ Cd[Isopropylamine]++ formula= Cd[(CH3)2CHNH2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 171.5102 g 2 species in reaction 1.000 Cd++ 1.000 iPrAm -2.5500 -2.5500 -2.5500 -2.5500 -2.5500 -2.5500 -2.5500 -2.5500 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.550000 deltaH= 0.000000 kJ Cd[Isopropylamine]2++ formula= Cd[(CH3)2CHNH2]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 230.6210 g 2 species in reaction 1.000 Cd++ 2.000 iPrAm -4.5700 -4.5700 -4.5700 -4.5700 -4.5700 -4.5700 -4.5700 -4.5700 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -4.570000 deltaH= 0.000000 kJ Cd[Isopropylamine]3++ formula= Cd[(CH3)2CHNH2]3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 289.7318 g 2 species in reaction 1.000 Cd++ 3.000 iPrAm -6.0700 -6.0700 -6.0700 -6.0700 -6.0700 -6.0700 -6.0700 -6.0700 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -6.070000 deltaH= 0.000000 kJ Cd[Isopropylamine]4++ formula= Cd[(CH3)2CHNH2]4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 348.8426 g 2 species in reaction 1.000 Cd++ 4.000 iPrAm -6.9000 -6.9000 -6.9000 -6.9000 -6.9000 -6.9000 -6.9000 -6.9000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -6.900000 deltaH= 0.000000 kJ Cd[Methylamine]++ formula= Cd(CH3NH2)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 143.4566 g 2 species in reaction 1.000 MeAm 1.000 Cd++ -2.7500 -2.7500 -2.7500 -2.7500 -2.7500 -2.7500 -2.7500 -2.7500 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.750000 deltaH= 0.000000 kJ Cd[Methylamine]2++ formula= Cd(CH3NH2)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 174.5138 g 2 species in reaction 2.000 MeAm 1.000 Cd++ -5.2796 -5.0345 -4.8100 -4.5642 -4.3409 -4.1371 -3.9504 -3.7787 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -4.810000 deltaH= 29.288000 kJ Cd[Methylamine]3++ formula= Cd(CH3NH2)3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 205.5710 g 2 species in reaction 3.000 MeAm 1.000 Cd++ -5.9400 -5.9400 -5.9400 -5.9400 -5.9400 -5.9400 -5.9400 -5.9400 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -5.940000 deltaH= 0.000000 kJ Cd[Methylamine]4++ formula= Cd(CH3NH2)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 236.6282 g 2 species in reaction 4.000 MeAm 1.000 Cd++ -7.4892 -6.9991 -6.5500 -6.0585 -5.6119 -5.2043 -4.8309 -4.4875 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -6.550000 deltaH= 58.576000 kJ Cd[Propylamine]++ formula= Cd[CH3(CH2)2NH2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 171.5102 g 2 species in reaction 1.000 Cd++ 1.000 PrAm -2.6200 -2.6200 -2.6200 -2.6200 -2.6200 -2.6200 -2.6200 -2.6200 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.620000 deltaH= 0.000000 kJ Cd[Propylamine]2++ formula= Cd[CH3(CH2)2NH2]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 230.6210 g 2 species in reaction 1.000 Cd++ 2.000 PrAm -4.6400 -4.6400 -4.6400 -4.6400 -4.6400 -4.6400 -4.6400 -4.6400 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -4.640000 deltaH= 0.000000 kJ Cd[Propylamine]3++ formula= Cd[CH3(CH2)2NH2]3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 289.7318 g 2 species in reaction 1.000 Cd++ 3.000 PrAm -6.0300 -6.0300 -6.0300 -6.0300 -6.0300 -6.0300 -6.0300 -6.0300 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -6.030000 deltaH= 0.000000 kJ CdBr+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 192.3034 g 2 species in reaction 1.000 Br- 1.000 Cd++ -2.1981 -2.1730 -2.1500 -2.1248 -2.1020 -2.0811 -2.0620 -2.0444 * logK= -2.150000 deltaH= 3.000000 kJ CdBr2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 272.2074 g 2 species in reaction 2.000 Br- 1.000 Cd++ -3.0481 -3.0230 -3.0000 -2.9748 -2.9520 -2.9311 -2.9120 -2.8944 * logK= -3.000000 deltaH= 3.000000 kJ CdBr3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 352.1114 g 2 species in reaction 3.000 Br- 1.000 Cd++ -3.0000 -3.0000 -3.0000 -3.0000 -3.0000 -3.0000 -3.0000 -3.0000 * logK= -3.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CdBr4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 432.0154 g 2 species in reaction 4.000 Br- 1.000 Cd++ -2.9321 -2.9153 -2.9000 -2.8832 -2.8680 -2.8541 -2.8413 -2.8296 * logK= -2.900000 deltaH= 2.000000 kJ CdCl+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 147.8524 g 2 species in reaction 1.000 Cl- 1.000 Cd++ -1.9479 -1.9647 -1.9800 -1.9968 -2.0120 -2.0259 -2.0387 -2.0504 * logK= -1.980000 deltaH= -2.000000 kJ CdCl2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 183.3054 g 2 species in reaction 2.000 Cl- 1.000 Cd++ -2.5262 -2.5647 -2.6000 -2.6386 -2.6737 -2.7057 -2.7350 -2.7620 * logK= -2.600000 deltaH= -4.600000 kJ CdCN+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 138.4171 g 2 species in reaction 1.000 Cd++ 1.000 CN- -6.4910 -6.2400 -6.0100 -5.7583 -5.5295 -5.3208 -5.1295 -4.9537 * logK= -6.010000 deltaH= 30.000000 kJ CdCO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 172.4086 g 2 species in reaction 1.000 Cd++ 1.000 CO3-- -4.3700 -4.3700 -4.3700 -4.3700 -4.3700 -4.3700 -4.3700 -4.3700 * logK= -4.370000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CdEDTA-- formula= Cd(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 400.6128 g 2 species in reaction 1.000 Cd++ 1.000 EDTA---- -18.6772 -18.3760 -18.1000 -17.7979 -17.5234 -17.2729 -17.0434 -16.8324 * logK= -18.100000 deltaH= 36.000000 kJ CdEGTA-- formula= Cd(C14H20N2O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 488.7188 g 2 species in reaction 1.000 EGTA---- 1.000 Cd++ -19.1817 -18.6746 -18.2100 -17.7015 -17.2394 -16.8178 -16.4315 -16.0762 * logK= -18.210000 deltaH= 60.600000 kJ CdF+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 131.3978 g 2 species in reaction 1.000 Cd++ 1.000 F- -1.1198 -1.1617 -1.2000 -1.2420 -1.2801 -1.3149 -1.3467 -1.3761 * logK= -1.200000 deltaH= -5.000000 kJ CdH-(Tartrate)2- formula= CdH(C4H4O6)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 409.5513 g 3 species in reaction 2.000 Tartrate-- 1.000 H+ 1.000 Cd++ -7.3700 -7.3700 -7.3700 -7.3700 -7.3700 -7.3700 -7.3700 -7.3700 * logK= -7.370000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CdH-Citrate (aq) formula= CdH[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 302.5086 g 3 species in reaction 1.000 H+ 1.000 Citrate--- 1.000 Cd++ -9.3871 -9.4147 -9.4400 -9.4677 -9.4929 -9.5158 -9.5369 -9.5562 * logK= -9.440000 deltaH= -3.300000 kJ CdH-DTPA-- formula= CdH(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 501.7176 g 3 species in reaction 1.000 H+ 1.000 Cd++ 1.000 DTPA----- -26.6100 -26.6100 -26.6100 -26.6100 -26.6100 -26.6100 -26.6100 -26.6100 * logK= -26.610000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CdH-HEDTA (aq) formula= CdH(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 388.6450 g 3 species in reaction 1.000 H+ 1.000 Cd++ 1.000 HEDTA--- -17.5100 -17.5100 -17.5100 -17.5100 -17.5100 -17.5100 -17.5100 -17.5100 * logK= -17.510000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CdH-iPhthalate+ formula= CdH[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 277.5245 g 3 species in reaction 1.000 iPhthalate-- 1.000 H+ 1.000 Cd++ -5.7300 -5.7300 -5.7300 -5.7300 -5.7300 -5.7300 -5.7300 -5.7300 * logK= -5.730000 deltaH= 0.000000 kJ CdH-Malate+ formula= CdH(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 245.4799 g 3 species in reaction 1.000 H+ 1.000 Malate-- 1.000 Cd++ -6.8700 -6.8700 -6.8700 -6.8700 -6.8700 -6.8700 -6.8700 -6.8700 * logK= -6.870000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CdH-Malonate+ formula= CdH[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 215.4537 g 3 species in reaction 1.000 Malonate-- 1.000 H+ 1.000 Cd++ -7.1800 -7.1800 -7.1800 -7.1800 -7.1800 -7.1800 -7.1800 -7.1800 * logK= -7.180000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CdH-Phthalate+ formula= CdH[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 277.5245 g 3 species in reaction 1.000 Phthalate-- 1.000 H+ 1.000 Cd++ -6.3000 -6.3000 -6.3000 -6.3000 -6.3000 -6.3000 -6.3000 -6.3000 * logK= -6.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CdH-Succinate+ formula= CdH[(CH2)2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 229.4805 g 3 species in reaction 1.000 H+ 1.000 Cd++ 1.000 Succinate-- -7.0400 -7.0400 -7.0400 -7.0400 -7.0400 -7.0400 -7.0400 -7.0400 * logK= -7.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CdH-Tartrate+ formula= CdH(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 261.4793 g 3 species in reaction 1.000 Tartrate-- 1.000 H+ 1.000 Cd++ -5.7800 -5.7800 -5.7800 -5.7800 -5.7800 -5.7800 -5.7800 -5.7800 * logK= -5.780000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CdH2-(Tartrate)2 (aq) formula= CdH2(C4H4O6)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 410.5592 g 3 species in reaction 2.000 Tartrate-- 2.000 H+ 1.000 Cd++ -10.8700 -10.8700 -10.8700 -10.8700 -10.8700 -10.8700 -10.8700 -10.8700 * logK= -10.870000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CdH2-Citrate+ formula= CdH2[C3H5O(COO)3]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 303.5165 g 3 species in reaction 2.000 H+ 1.000 Citrate--- 1.000 Cd++ -12.8900 -12.8900 -12.8900 -12.8900 -12.8900 -12.8900 -12.8900 -12.8900 * logK= -12.890000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CdH2BO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 173.2234 g 3 species in reaction 1.000 H3BO3 -1.000 H+ 1.000 Cd++ 7.3200 7.3200 7.3200 7.3200 7.3200 7.3200 7.3200 7.3200 * logK= 7.320000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CdH2EDTA (aq) formula= CdH2(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 402.6286 g 3 species in reaction 2.000 H+ 1.000 Cd++ 1.000 EDTA---- -23.2300 -23.2300 -23.2300 -23.2300 -23.2300 -23.2300 -23.2300 -23.2300 * logK= -23.230000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CdHCO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 173.4165 g 3 species in reaction 1.000 H+ 1.000 Cd++ 1.000 CO3-- -11.8300 -11.8300 -11.8300 -11.8300 -11.8300 -11.8300 -11.8300 -11.8300 * logK= -11.830000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CdHEDTA- formula= CdH(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 401.6207 g 3 species in reaction 1.000 H+ 1.000 Cd++ 1.000 EDTA---- -22.0233 -21.7136 -21.4300 -21.1195 -20.8374 -20.5800 -20.3441 -20.1272 * logK= -21.430000 deltaH= 37.000000 kJ CdHEGTA- formula= CdH(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 489.7267 g 3 species in reaction 1.000 EGTA---- 1.000 H+ 1.000 Cd++ -21.7000 -21.7000 -21.7000 -21.7000 -21.7000 -21.7000 -21.7000 -21.7000 * logK= -21.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CdHPO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 208.3787 g 3 species in reaction 1.000 H+ 1.000 PO4--- 1.000 Cd++ -16.0800 -16.0800 -16.0800 -16.0800 -16.0800 -16.0800 -16.0800 -16.0800 * logK= -16.080000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CdHS+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 145.4713 g 2 species in reaction 1.000 Cd++ 1.000 HS- -8.0100 -8.0100 -8.0100 -8.0100 -8.0100 -8.0100 -8.0100 -8.0100 * logK= -8.010000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CdI+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 239.3038 g 2 species in reaction 1.000 Cd++ 1.000 I- -2.4339 -2.3536 -2.2800 -2.1994 -2.1262 -2.0595 -1.9983 -1.9420 * logK= -2.280000 deltaH= 9.600000 kJ CdI2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 366.2082 g 2 species in reaction 1.000 Cd++ 2.000 I- -4.1124 -4.0120 -3.9200 -3.8193 -3.7278 -3.6443 -3.5678 -3.4975 * logK= -3.920000 deltaH= 12.000000 kJ CdI3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 493.1126 g 2 species in reaction 1.000 Cd++ 3.000 I- -5.2886 -5.1380 -5.0000 -4.8490 -4.7117 -4.5865 -4.4717 -4.3662 * logK= -5.000000 deltaH= 18.000000 kJ CdI4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 620.0170 g 2 species in reaction 1.000 Cd++ 4.000 I- -6.5612 -6.2683 -6.0000 -5.7063 -5.4394 -5.1959 -4.9728 -4.7676 * logK= -6.000000 deltaH= 35.000000 kJ CdNH3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 129.4298 g 3 species in reaction -1.000 H+ 1.000 Cd++ 1.000 NH4+ 7.3314 6.9966 6.6900 6.3543 6.0494 5.7711 5.5161 5.2816 * logK= 6.690000 deltaH= -40.000000 kJ CdNO2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 158.4049 g 2 species in reaction 1.000 Cd++ 1.000 NO2- -2.0895 -2.0167 -1.9500 -1.8770 -1.8107 -1.7501 -1.6947 -1.6437 * logK= -1.950000 deltaH= 8.700000 kJ CdNO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 174.4043 g 2 species in reaction 1.000 NO3- 1.000 Cd++ -.8367 -.6610 -.5000 -.3238 -.1637 -.0176 .1163 .2394 * logK= -0.500000 deltaH= 21.000000 kJ CdNTA- formula= Cd[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 300.5159 g 2 species in reaction 1.000 NTA--- 1.000 Cd++ -11.2965 -11.1627 -11.0400 -10.9057 -10.7837 -10.6724 -10.5704 -10.4766 * logK= -11.040000 deltaH= 16.000000 kJ CdOH+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 129.4067 g 3 species in reaction -1.000 H+ 1.000 Cd++ 1.000 H2O 10.9758 10.5172 10.0970 9.6371 9.2192 8.8378 8.4884 8.1671 * logK= 10.097000 deltaH= -54.810000 kJ CdOHEDTA--- formula= CdOH(C10H12N2O8)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 417.6201 g 4 species in reaction -1.000 H+ 1.000 Cd++ 1.000 EDTA---- 1.000 H2O -4.7867 -4.5290 -4.2930 -4.0346 -3.7999 -3.5856 -3.3894 -3.2088 * logK= -4.293000 deltaH= 30.790000 kJ CdOHNTA-- formula= CdOH[N(CH2COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 317.5232 g 4 species in reaction 1.000 NTA--- -1.000 H+ 1.000 Cd++ 1.000 H2O .5406 .5925 .6400 .6920 .7393 .7824 .8220 .8583 * logK= 0.640000 deltaH= 6.200000 kJ CdS2O3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 224.5256 g 2 species in reaction 1.000 S2O3-- 1.000 Cd++ -3.8334 -3.8786 -3.9200 -3.9653 -4.0065 -4.0441 -4.0785 -4.1101 * logK= -3.920000 deltaH= -5.400000 kJ CdSCN+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 170.4811 g 2 species in reaction 1.000 Cd++ 1.000 SCN- -2.1224 -2.0220 -1.9300 -1.8293 -1.7378 -1.6543 -1.5778 -1.5075 * logK= -1.930000 deltaH= 12.000000 kJ CdSeO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 255.3570 g 2 species in reaction 1.000 Cd++ 1.000 SeO4-- -2.2700 -2.2700 -2.2700 -2.2700 -2.2700 -2.2700 -2.2700 -2.2700 * logK= -2.270000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CdSO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 192.4616 g 2 species in reaction 1.000 Cd++ 1.000 SO3-- -3.2900 -3.2900 -3.2900 -3.2900 -3.2900 -3.2900 -3.2900 -3.2900 * logK= -3.290000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CdSO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 208.4610 g 2 species in reaction 1.000 Cd++ 1.000 SO4-- -2.2305 -2.3033 -2.3700 -2.4430 -2.5093 -2.5699 -2.6253 -2.6763 * logK= -2.370000 deltaH= -8.700000 kJ Ce(CO3)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 260.1344 g 2 species in reaction 2.000 CO3-- 1.000 Ce+++ -12.3200 -12.3200 -12.3200 -12.3200 -12.3200 -12.3200 -12.3200 -12.3200 * logK= -12.320000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ce(SO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 332.2392 g 2 species in reaction 1.000 Ce+++ 2.000 SO4-- -4.5709 -4.8470 -5.1000 -5.3769 -5.6285 -5.8581 -6.0685 -6.2620 * logK= -5.100000 deltaH= -33.000000 kJ Ce-(Lactate)2+ formula= Ce[CH3CH(OH)COO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 318.2574 g 2 species in reaction 2.000 Lactate- 1.000 Ce+++ -5.8741 -5.8407 -5.8100 -5.7764 -5.7459 -5.7181 -5.6926 -5.6692 * logK= -5.810000 deltaH= 4.000000 kJ Ce-(Lactate)3 (aq) formula= Ce[CH3CH(OH)COO]3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 407.3281 g 2 species in reaction 3.000 Lactate- 1.000 Ce+++ -7.6608 -7.4517 -7.2600 -7.0502 -6.8596 -6.6857 -6.5263 -6.3797 * logK= -7.260000 deltaH= 25.000000 kJ Ce-Lactate++ formula= Ce[CH3CH(OH)COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 229.1867 g 2 species in reaction 1.000 Lactate- 1.000 Ce+++ -3.3238 -3.2644 -3.2100 -3.1504 -3.0963 -3.0469 -3.0016 -2.9600 * logK= -3.210000 deltaH= 7.100000 kJ CeBr++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 220.0200 g 2 species in reaction 1.000 Br- 1.000 Ce+++ -.4600 -.4600 -.4600 -.4600 -.4600 -.4600 -.4600 -.4600 * logK= -0.460000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CeCl++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 175.5690 g 2 species in reaction 1.000 Cl- 1.000 Ce+++ -.5700 -.5700 -.5700 -.5700 -.5700 -.5700 -.5700 -.5700 * logK= -0.570000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CeClO4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 239.5666 g 2 species in reaction 1.000 ClO4- 1.000 Ce+++ -1.8984 -1.3043 -.7600 -.1642 .3771 .8711 1.3238 1.7400 * logK= -0.760000 deltaH= 71.000000 kJ CeCO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 200.1252 g 2 species in reaction 1.000 CO3-- 1.000 Ce+++ -7.3100 -7.3100 -7.3100 -7.3100 -7.3100 -7.3100 -7.3100 -7.3100 * logK= -7.310000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CeF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 159.1144 g 2 species in reaction 1.000 F- 1.000 Ce+++ -3.9400 -3.9400 -3.9400 -3.9400 -3.9400 -3.9400 -3.9400 -3.9400 * logK= -3.940000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CeH2PO4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 237.1032 g 3 species in reaction 2.000 H+ 1.000 PO4--- 1.000 Ce+++ -21.9000 -21.9000 -21.9000 -21.9000 -21.9000 -21.9000 -21.9000 -21.9000 * logK= -21.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CeHCO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 201.1331 g 3 species in reaction 1.000 H+ 1.000 CO3-- 1.000 Ce+++ -12.6700 -12.6700 -12.6700 -12.6700 -12.6700 -12.6700 -12.6700 -12.6700 * logK= -12.670000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CeNO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 202.1209 g 2 species in reaction 1.000 NO3- 1.000 Ce+++ -.8100 -.8100 -.8100 -.8100 -.8100 -.8100 -.8100 -.8100 * logK= -0.810000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CeOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 157.1233 g 3 species in reaction -1.000 H+ 1.000 H2O 1.000 Ce+++ 8.2970 8.2970 8.2970 8.2970 8.2970 8.2970 8.2970 8.2970 * logK= 8.297000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CePO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 235.0874 g 2 species in reaction 1.000 PO4--- 1.000 Ce+++ -11.7300 -11.7300 -11.7300 -11.7300 -11.7300 -11.7300 -11.7300 -11.7300 * logK= -11.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CeSO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 220.1782 g 2 species in reaction 1.000 Ce+++ 1.000 SO3-- -8.0400 -8.0400 -8.0400 -8.0400 -8.0400 -8.0400 -8.0400 -8.0400 * logK= -8.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CeSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 236.1776 g 2 species in reaction 1.000 Ce+++ 1.000 SO4-- -3.3354 -3.4943 -3.6400 -3.7994 -3.9443 -4.0765 -4.1976 -4.3090 * logK= -3.640000 deltaH= -19.000000 kJ Cf(NTA)2--- formula= Cf[N(CH2COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 627.2330 g 2 species in reaction 1.000 Cf+++ 2.000 NTA--- -23.1200 -23.1200 -23.1200 -23.1200 -23.1200 -23.1200 -23.1200 -23.1200 * logK= -23.120000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cf(SO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 443.1232 g 2 species in reaction 1.000 Cf+++ 2.000 SO4-- -5.6000 -5.6000 -5.6000 -5.6000 -5.6000 -5.6000 -5.6000 -5.6000 * logK= -5.600000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cf-(HEDTA)2--- formula= Cf(C10H15N2O7)2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 801.4754 g 2 species in reaction 1.000 Cf+++ 2.000 HEDTA--- -30.4300 -30.4300 -30.4300 -30.4300 -30.4300 -30.4300 -30.4300 -30.4300 * logK= -30.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cf-(Lactate)3 (aq) formula= Cf[CH3CH(OH)COO]3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 518.2121 g 2 species in reaction 1.000 Cf+++ 3.000 Lactate- -7.7000 -7.7000 -7.7000 -7.7000 -7.7000 -7.7000 -7.7000 -7.7000 * Weight read from thermo.mdb (372.152) does not match weight computed from * components (518.2121) -- using weight computed from components. * logK= -7.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cf-(Oxalate)2- formula= Cf[(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 427.0392 g 2 species in reaction 1.000 Cf+++ 2.000 Oxalate-- -11.0900 -11.0900 -11.0900 -11.0900 -11.0900 -11.0900 -11.0900 -11.0900 * logK= -11.090000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cf-Citrate (aq) formula= Cf[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 440.1013 g 2 species in reaction 1.000 Cf+++ 1.000 Citrate--- -9.8700 -9.8700 -9.8700 -9.8700 -9.8700 -9.8700 -9.8700 -9.8700 * logK= -9.870000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cf-DTPA-- formula= Cf(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 639.3103 g 2 species in reaction 1.000 Cf+++ 1.000 DTPA----- -25.8200 -25.8200 -25.8200 -25.8200 -25.8200 -25.8200 -25.8200 -25.8200 * logK= -25.820000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cf-HEDTA (aq) formula= Cf(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 526.2377 g 2 species in reaction 1.000 Cf+++ 1.000 HEDTA--- -18.2400 -18.2400 -18.2400 -18.2400 -18.2400 -18.2400 -18.2400 -18.2400 * logK= -18.240000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cf-Oxalate+ formula= Cf[(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 339.0196 g 2 species in reaction 1.000 Cf+++ 1.000 Oxalate-- -6.7800 -6.7800 -6.7800 -6.7800 -6.7800 -6.7800 -6.7800 -6.7800 * logK= -6.780000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CfEDTA- formula= Cf(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 539.2134 g 2 species in reaction 1.000 Cf+++ 1.000 EDTA---- -21.1100 -21.1100 -21.1100 -21.1100 -21.1100 -21.1100 -21.1100 -21.1100 * logK= -21.110000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CfEGTA- formula= Cf(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 627.3194 g 2 species in reaction 1.000 Cf+++ 1.000 EGTA---- -20.4600 -20.4600 -20.4600 -20.4600 -20.4600 -20.4600 -20.4600 -20.4600 * logK= -20.460000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CfF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 269.9984 g 2 species in reaction 1.000 Cf+++ 1.000 F- -3.4476 -3.5480 -3.6400 -3.7407 -3.8322 -3.9157 -3.9922 -4.0625 * logK= -3.640000 deltaH= -12.000000 kJ CfNO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 313.0049 g 2 species in reaction 1.000 Cf+++ 1.000 NO3- -1.0100 -1.0100 -1.0100 -1.0100 -1.0100 -1.0100 -1.0100 -1.0100 * logK= -1.010000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CfNTA (aq) formula= Cf[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 439.1165 g 2 species in reaction 1.000 Cf+++ 1.000 NTA--- -13.8200 -13.8200 -13.8200 -13.8200 -13.8200 -13.8200 -13.8200 -13.8200 * logK= -13.820000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CfOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 268.0073 g 3 species in reaction 1.000 Cf+++ -1.000 H+ 1.000 H2O 6.1470 6.1470 6.1470 6.1470 6.1470 6.1470 6.1470 6.1470 * logK= 6.147000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CfSCN++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 309.0817 g 2 species in reaction 1.000 Cf+++ 1.000 SCN- -1.1400 -1.1400 -1.1400 -1.1400 -1.1400 -1.1400 -1.1400 -1.1400 * logK= -1.140000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CfSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 347.0616 g 2 species in reaction 1.000 Cf+++ 1.000 SO4-- -3.4093 -3.5767 -3.7300 -3.8978 -4.0503 -4.1895 -4.3170 -4.4342 * logK= -3.730000 deltaH= -20.000000 kJ Cm(NTA)2--- formula= Cm[N(CH2COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 623.2330 g 2 species in reaction 1.000 Cm+++ 2.000 NTA--- -22.6700 -22.6700 -22.6700 -22.6700 -22.6700 -22.6700 -22.6700 -22.6700 * logK= -22.670000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cm(OH)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 262.9994 g 3 species in reaction 1.000 Cm+++ -2.000 H+ 1.000 H2O 14.7140 14.7140 14.7140 14.7140 14.7140 14.7140 14.7140 14.7140 * logK= 14.714000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cm(SO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 439.1232 g 2 species in reaction 1.000 Cm+++ 2.000 SO4-- -4.8600 -4.8600 -4.8600 -4.8600 -4.8600 -4.8600 -4.8600 -4.8600 * logK= -4.860000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cm-(Acetate)2+ formula= Cm(CH3COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 365.0890 g 2 species in reaction 1.000 Cm+++ 2.000 Acetate- -4.4200 -4.4200 -4.4200 -4.4200 -4.4200 -4.4200 -4.4200 -4.4200 * logK= -4.420000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cm-(HEDTA)2--- formula= Cm(C10H15N2O7)2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 797.4754 g 2 species in reaction 1.000 Cm+++ 2.000 HEDTA--- -29.1300 -29.1300 -29.1300 -29.1300 -29.1300 -29.1300 -29.1300 -29.1300 * logK= -29.130000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cm-(Lactate)3 (aq) formula= Cm[CH3CH(OH)COO]3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 514.2121 g 2 species in reaction 1.000 Cm+++ 3.000 Lactate- -7.3700 -7.3700 -7.3700 -7.3700 -7.3700 -7.3700 -7.3700 -7.3700 * logK= -7.370000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cm-(Oxalate)2- formula= Cm[(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 423.0392 g 2 species in reaction 1.000 Cm+++ 2.000 Oxalate-- -10.5700 -10.5700 -10.5700 -10.5700 -10.5700 -10.5700 -10.5700 -10.5700 * logK= -10.570000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cm-Acetate++ formula= Cm(CH3COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 306.0445 g 2 species in reaction 1.000 Cm+++ 1.000 Acetate- -2.7770 -2.8255 -2.8700 -2.9187 -2.9629 -3.0032 -3.0402 -3.0742 * logK= -2.870000 deltaH= -5.800000 kJ Cm-Citrate (aq) formula= Cm[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 436.1013 g 2 species in reaction 1.000 Cm+++ 1.000 Citrate--- -9.6700 -9.6700 -9.6700 -9.6700 -9.6700 -9.6700 -9.6700 -9.6700 * logK= -9.670000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cm-DTPA-- formula= Cm(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 635.3103 g 2 species in reaction 1.000 Cm+++ 1.000 DTPA----- -26.2200 -26.2200 -26.2200 -26.2200 -26.2200 -26.2200 -26.2200 -26.2200 * logK= -26.220000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cm-HEDTA (aq) formula= Cm(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 522.2377 g 2 species in reaction 1.000 Cm+++ 1.000 HEDTA--- -17.8400 -17.8400 -17.8400 -17.8400 -17.8400 -17.8400 -17.8400 -17.8400 * logK= -17.840000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cm-Oxalate+ formula= Cm[(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 335.0196 g 2 species in reaction 1.000 Cm+++ 1.000 Oxalate-- -6.5300 -6.5300 -6.5300 -6.5300 -6.5300 -6.5300 -6.5300 -6.5300 * logK= -6.530000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CmCO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 307.0092 g 2 species in reaction 1.000 Cm+++ 1.000 CO3-- -7.9400 -7.9400 -7.9400 -7.9400 -7.9400 -7.9400 -7.9400 -7.9400 * logK= -7.940000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CmEDTA- formula= Cm(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 535.2134 g 2 species in reaction 1.000 Cm+++ 1.000 EDTA---- -20.8090 -20.5747 -20.3600 -20.1250 -19.9116 -19.7167 -19.5382 -19.3741 * logK= -20.360000 deltaH= 28.000000 kJ CmEGTA- formula= Cm(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 623.3194 g 2 species in reaction 1.000 Cm+++ 1.000 EGTA---- -20.6600 -20.6600 -20.6600 -20.6600 -20.6600 -20.6600 -20.6600 -20.6600 * logK= -20.660000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CmF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 265.9984 g 2 species in reaction 1.000 Cm+++ 1.000 F- -3.0276 -3.1280 -3.2200 -3.3207 -3.4122 -3.4957 -3.5722 -3.6425 * logK= -3.220000 deltaH= -12.000000 kJ CmH-DTPA- formula= CmH(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 636.3182 g 3 species in reaction 1.000 Cm+++ 1.000 H+ 1.000 DTPA----- -28.1800 -28.1800 -28.1800 -28.1800 -28.1800 -28.1800 -28.1800 -28.1800 * logK= -28.180000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CmNO2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 293.0055 g 2 species in reaction 1.000 Cm+++ 1.000 NO2- -1.4300 -1.4300 -1.4300 -1.4300 -1.4300 -1.4300 -1.4300 -1.4300 * logK= -1.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CmNO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 309.0049 g 2 species in reaction 1.000 Cm+++ 1.000 NO3- -.9500 -.9500 -.9500 -.9500 -.9500 -.9500 -.9500 -.9500 * logK= -0.950000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CmNTA (aq) formula= Cm[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 435.1165 g 2 species in reaction 1.000 Cm+++ 1.000 NTA--- -13.8964 -13.8043 -13.7200 -13.6277 -13.5438 -13.4673 -13.3972 -13.3327 * logK= -13.720000 deltaH= 11.000000 kJ CmOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 264.0073 g 3 species in reaction 1.000 Cm+++ -1.000 H+ 1.000 H2O 6.5470 6.5470 6.5470 6.5470 6.5470 6.5470 6.5470 6.5470 * logK= 6.547000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CmSCN++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 305.0817 g 2 species in reaction 1.000 Cm+++ 1.000 SCN- -.7176 -.8180 -.9100 -1.0107 -1.1022 -1.1857 -1.2622 -1.3325 * logK= -0.910000 deltaH= -12.000000 kJ CmSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 343.0616 g 2 species in reaction 1.000 Cm+++ 1.000 SO4-- -3.2235 -3.3573 -3.4800 -3.6143 -3.7363 -3.8476 -3.9496 -4.0434 * logK= -3.480000 deltaH= -16.000000 kJ Co(CN)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 136.9863 g 2 species in reaction 1.000 Co++ 3.000 CN- -14.3100 -14.3100 -14.3100 -14.3100 -14.3100 -14.3100 -14.3100 -14.3100 * logK= -14.310000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co(CN)5--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 189.0217 g 2 species in reaction 1.000 Co++ 5.000 CN- -27.1207 -24.9702 -23.0000 -20.8434 -18.8839 -17.0958 -15.4574 -13.9507 * logK= -23.000000 deltaH= 257.000000 kJ Co(NH3)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 75.9636 g 3 species in reaction 1.000 Co++ -1.000 H+ 1.000 NH4+ 7.8353 7.5090 7.2100 6.8827 6.5854 6.3140 6.0654 5.8368 * logK= 7.210000 deltaH= -39.000000 kJ Co(NH3)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 92.9940 g 3 species in reaction 1.000 Co++ -2.000 H+ 2.000 NH4+ 14.9900 14.9900 14.9900 14.9900 14.9900 14.9900 14.9900 14.9900 * logK= 14.990000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co(NH3)3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 110.0244 g 3 species in reaction 1.000 Co++ -3.000 H+ 3.000 NH4+ 23.3000 23.3000 23.3000 23.3000 23.3000 23.3000 23.3000 23.3000 * logK= 23.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co(NH3)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 127.0548 g 3 species in reaction 1.000 Co++ -4.000 H+ 4.000 NH4+ 31.9100 31.9100 31.9100 31.9100 31.9100 31.9100 31.9100 31.9100 * logK= 31.910000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co(NH3)5++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 144.0852 g 3 species in reaction 1.000 Co++ -5.000 H+ 5.000 NH4+ 41.0900 41.0900 41.0900 41.0900 41.0900 41.0900 41.0900 41.0900 * logK= 41.090000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co(NH3)5Cl++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 179.5382 g 4 species in reaction 1.000 Cl- 1.000 Co+++ -5.000 H+ 5.000 NH4+ 19.7763 18.8276 17.9584 17.0070 16.1425 15.3536 14.6308 13.9662 * logK= 17.958400 deltaH= -113.380000 kJ Co(NH3)6Br++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 241.0196 g 4 species in reaction 1.000 Br- 1.000 Co+++ -6.000 H+ 6.000 NH4+ 35.6613 34.7360 33.8884 32.9605 32.1175 31.3482 30.6433 29.9951 * logK= 33.888400 deltaH= -110.569900 kJ Co(NH3)6Cl++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 196.5686 g 4 species in reaction 1.000 Cl- 1.000 Co+++ -6.000 H+ 6.000 NH4+ 35.5909 34.7178 33.9179 33.0423 32.2468 31.5208 30.8557 30.2440 * logK= 33.917900 deltaH= -104.340000 kJ Co(NH3)6I++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 288.0200 g 4 species in reaction 1.000 Co+++ -6.000 H+ 6.000 NH4+ 1.000 I- 35.3318 34.3658 33.4808 32.5121 31.6319 30.8287 30.0928 29.4160 * logK= 33.480800 deltaH= -115.439900 kJ Co(NH3)6OH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 178.1229 g 4 species in reaction 1.000 Co+++ -7.000 H+ 6.000 NH4+ 1.000 H2O 43.7148 43.7148 43.7148 43.7148 43.7148 43.7148 43.7148 43.7148 * logK= 43.714800 deltaH= 0.000000 kJ Co(NH3)6SO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 257.1772 g 4 species in reaction 1.000 Co+++ -6.000 H+ 6.000 NH4+ 1.000 SO4-- 30.9888 29.9470 28.9926 27.9479 26.9986 26.1324 25.3387 24.6088 * logK= 28.992600 deltaH= -124.499900 kJ Co(NO3)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 182.9430 g 2 species in reaction 1.000 Co++ 2.000 NO3- -.5100 -.5100 -.5100 -.5100 -.5100 -.5100 -.5100 -.5100 * logK= -0.510000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co(NTA)2---- formula= Co[N(CH2COO)3]2---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 435.1662 g 2 species in reaction 1.000 Co++ 2.000 NTA--- -15.2907 -15.1233 -14.9700 -14.8022 -14.6497 -14.5105 -14.3830 -14.2658 * logK= -14.970000 deltaH= 20.000000 kJ Co(OH)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 92.9478 g 3 species in reaction 1.000 Co++ -2.000 H+ 2.000 H2O 18.7940 18.7940 18.7940 18.7940 18.7940 18.7940 18.7940 18.7940 * logK= 18.794000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co(OH)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 109.9551 g 3 species in reaction 1.000 Co++ -3.000 H+ 3.000 H2O 31.4910 31.4910 31.4910 31.4910 31.4910 31.4910 31.4910 31.4910 * logK= 31.491000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co(SCN)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 175.0966 g 2 species in reaction 1.000 Co++ 2.000 SCN- -3.0327 -2.8487 -2.6800 -2.4954 -2.3276 -2.1746 -2.0343 -1.9054 * logK= -2.680000 deltaH= 22.000000 kJ Co-(Acetate)2 (aq) formula= Co(CH3COO)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 177.0222 g 2 species in reaction 1.000 Co++ 2.000 Acetate- -.7565 -.7565 -.7565 -.7565 -.7565 -.7565 -.7565 -.7565 * logK= -0.756500 deltaH= 0.000000 kJ Co-(Butyrate)2 (aq) formula= Co[CH3CH2CH2COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 233.1294 g 2 species in reaction 1.000 Co++ 2.000 Butyrate- -.7765 -.7765 -.7765 -.7765 -.7765 -.7765 -.7765 -.7765 * logK= -0.776500 deltaH= 0.000000 kJ Co-(Formate)2 (aq) formula= Co[HCOO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 148.9686 g 2 species in reaction 1.000 Co++ 2.000 Formate- -1.1365 -1.1365 -1.1365 -1.1365 -1.1365 -1.1365 -1.1365 -1.1365 * logK= -1.136500 deltaH= 0.000000 kJ Co-(Glutamate)2-- formula= Co(C5H7NO4)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 349.1624 g 2 species in reaction 1.000 Co++ 2.000 Glutamate-- -8.7200 -8.7200 -8.7200 -8.7200 -8.7200 -8.7200 -8.7200 -8.7200 * logK= -8.720000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co-(Glycine)2 (aq) formula= Co[NH2CH2COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 207.0514 g 2 species in reaction 1.000 Co++ 2.000 Glycine- -9.4869 -9.2693 -9.0700 -8.8518 -8.6536 -8.4727 -8.3069 -8.1545 * logK= -9.070000 deltaH= 26.000000 kJ Co-(Glycine)3- formula= Co[NH2CH2COO]3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 281.1105 g 2 species in reaction 1.000 Co++ 3.000 Glycine- -12.2574 -11.9143 -11.6000 -11.2559 -10.9433 -10.6581 -10.3967 -10.1563 * logK= -11.600000 deltaH= 41.000000 kJ Co-(Lactate)2 (aq) formula= Co[CH3CH(OH)COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 237.0746 g 2 species in reaction 1.000 Co++ 2.000 Lactate- -3.0736 -3.0769 -3.0800 -3.0834 -3.0864 -3.0892 -3.0917 -3.0941 * logK= -3.080000 deltaH= -0.400000 kJ Co-(Lactate)3- formula= Co[CH3CH(OH)COO]3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 326.1453 g 2 species in reaction 1.000 Co++ 3.000 Lactate- -3.1100 -3.1100 -3.1100 -3.1100 -3.1100 -3.1100 -3.1100 -3.1100 * logK= -3.110000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co-(Malonate)2-- formula= Co[CH2(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 263.0260 g 2 species in reaction 2.000 Malonate-- 1.000 Co++ -5.1000 -5.1000 -5.1000 -5.1000 -5.1000 -5.1000 -5.1000 -5.1000 * logK= -5.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co-(Oxalate)2-- formula= Co[(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 234.9724 g 2 species in reaction 1.000 Co++ 2.000 Oxalate-- -7.1981 -7.1730 -7.1500 -7.1248 -7.1020 -7.0811 -7.0620 -7.0444 * logK= -7.150000 deltaH= 3.000000 kJ Co-(Sal)2-- formula= Co(OC6H4COO)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 331.1468 g 3 species in reaction 1.000 Co++ 0.000 H+ 2.000 Sal-- -12.3000 -12.3000 -12.3000 -12.3000 -12.3000 -12.3000 -12.3000 -12.3000 * logK= -12.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co-(Tartrate)2-- formula= Co(C4H4O6)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 355.0772 g 2 species in reaction 1.000 Co++ 2.000 Tartrate-- -4.0000 -4.0000 -4.0000 -4.0000 -4.0000 -4.0000 -4.0000 -4.0000 * logK= -4.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co-Acetate+ formula= Co(CH3COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 117.9777 g 2 species in reaction 1.000 Co++ 1.000 Acetate- -1.3800 -1.3800 -1.3800 -1.3800 -1.3800 -1.3800 -1.3800 -1.3800 * logK= -1.380000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co-Benzoate+ formula= Co(C6H5COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 180.0485 g 2 species in reaction 1.000 Co++ 1.000 Benzoate- -.8976 -.9980 -1.0900 -1.1907 -1.2822 -1.3657 -1.4422 -1.5125 * logK= -1.090000 deltaH= -12.000000 kJ Co-Butyrate+ formula= Co[CH3CH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 146.0313 g 2 species in reaction 1.000 Co++ 1.000 Butyrate- -.5910 -.5910 -.5910 -.5910 -.5910 -.5910 -.5910 -.5910 * logK= -0.591000 deltaH= 0.000000 kJ Co-Citrate- formula= Co[C3H5O(COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 248.0345 g 2 species in reaction 1.000 Co++ 1.000 Citrate--- -6.1900 -6.1900 -6.1900 -6.1900 -6.1900 -6.1900 -6.1900 -6.1900 * logK= -6.190000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co-DTPA--- formula= Co(C14H18N3O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 447.2435 g 2 species in reaction 1.000 Co++ 1.000 DTPA----- -21.5753 -21.2490 -20.9500 -20.6227 -20.3254 -20.0540 -19.8054 -19.5768 * logK= -20.950000 deltaH= 39.000000 kJ Co-Formate+ formula= Co[HCOO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 103.9509 g 2 species in reaction 1.000 Co++ 1.000 Formate- -1.2100 -1.2100 -1.2100 -1.2100 -1.2100 -1.2100 -1.2100 -1.2100 * logK= -1.210000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co-Glutamate (aq) formula= Co(C5H7NO4) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 204.0478 g 2 species in reaction 1.000 Co++ 1.000 Glutamate-- -5.4300 -5.4300 -5.4300 -5.4300 -5.4300 -5.4300 -5.4300 -5.4300 * logK= -5.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co-Glutarate (aq) formula= Co[C3H6(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 189.0332 g 2 species in reaction 1.000 Co++ 1.000 Glutarate-- -2.2600 -2.2600 -2.2600 -2.2600 -2.2600 -2.2600 -2.2600 -2.2600 * logK= -2.260000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co-Glycine+ formula= Co[NH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 132.9923 g 2 species in reaction 1.000 Co++ 1.000 Glycine- -5.2624 -5.1620 -5.0700 -4.9693 -4.8778 -4.7943 -4.7178 -4.6475 * logK= -5.070000 deltaH= 12.000000 kJ Co-HEDTA (aq) formula= Co(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 334.1709 g 2 species in reaction 1.000 Co+++ 1.000 HEDTA--- -39.1400 -39.1400 -39.1400 -39.1400 -39.1400 -39.1400 -39.1400 -39.1400 * logK= -39.140000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co-HEDTA- formula= Co(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 334.1709 g 2 species in reaction 1.000 Co++ 1.000 HEDTA--- -16.2229 -15.9970 -15.7900 -15.5634 -15.3576 -15.1697 -14.9976 -14.8393 * logK= -15.790000 deltaH= 27.000000 kJ Co-Lactate+ formula= Co[CH3CH(OH)COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 148.0039 g 2 species in reaction 1.000 Co++ 1.000 Lactate- -1.9000 -1.9000 -1.9000 -1.9000 -1.9000 -1.9000 -1.9000 -1.9000 * logK= -1.900000 deltaH= 0.000000 kJ Co-Malate (aq) formula= Co(C4H4O5) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 191.0058 g 2 species in reaction 1.000 Co++ 1.000 Malate-- -3.7300 -3.7300 -3.7300 -3.7300 -3.7300 -3.7300 -3.7300 -3.7300 * logK= -3.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co-Malonate (aq) formula= Co[CH2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 160.9796 g 2 species in reaction 1.000 Malonate-- 1.000 Co++ -3.5736 -3.6657 -3.7500 -3.8423 -3.9262 -4.0027 -4.0728 -4.1373 * logK= -3.750000 deltaH= -11.000000 kJ Co-Oxalate formula= Co[(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 146.9528 g 2 species in reaction 1.000 Co++ 1.000 Oxalate-- -4.6779 -4.6947 -4.7100 -4.7268 -4.7420 -4.7559 -4.7687 -4.7804 * logK= -4.710000 deltaH= -2.000000 kJ Co-Phthalate (aq) formula= Co[C6H4(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 223.0504 g 2 species in reaction 1.000 Co++ 1.000 Phthalate-- -2.7033 -2.7694 -2.8300 -2.8963 -2.9565 -3.0115 -3.0619 -3.1082 * logK= -2.830000 deltaH= -7.900000 kJ Co-Propionate+ formula= Co(CH3CH2COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 132.0045 g 2 species in reaction 1.000 Co++ 1.000 Propionate- -1.0562 -1.0947 -1.1300 -1.1686 -1.2037 -1.2357 -1.2650 -1.2920 * logK= -1.130000 deltaH= -4.600000 kJ Co-Sal (aq) formula= Co(OC6H4COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 195.0400 g 3 species in reaction 1.000 Co++ 0.000 H+ 1.000 Sal-- -7.9300 -7.9300 -7.9300 -7.9300 -7.9300 -7.9300 -7.9300 -7.9300 * logK= -7.930000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co-Succinate (aq) formula= Co[(CH2)2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 175.0064 g 2 species in reaction 1.000 Co++ 1.000 Succinate-- -2.2616 -2.3703 -2.4700 -2.5791 -2.6782 -2.7687 -2.8515 -2.9277 * logK= -2.470000 deltaH= -13.000000 kJ Co-Tartrate (aq) formula= Co(C4H4O6) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 207.0052 g 2 species in reaction 1.000 Co++ 1.000 Tartrate-- -3.0500 -3.0500 -3.0500 -3.0500 -3.0500 -3.0500 -3.0500 -3.0500 * logK= -3.050000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co2-DTPA- formula= Co2(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 506.1767 g 2 species in reaction 2.000 Co++ 1.000 DTPA----- -25.9800 -25.9800 -25.9800 -25.9800 -25.9800 -25.9800 -25.9800 -25.9800 * logK= -25.980000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co4(OH)4++++ charge= 4 ion size= 0.0 A b= 0.0000 mole wt.= 303.7620 g 3 species in reaction 4.000 Co++ -4.000 H+ 4.000 H2O 30.4880 30.4880 30.4880 30.4880 30.4880 30.4880 30.4880 30.4880 * logK= 30.488000 deltaH= 0.000000 kJ Co[3-Picoline]++ formula= Co(C6H7N)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 152.0612 g 2 species in reaction 1.000 3Picol 1.000 Co++ -1.4000 -1.4000 -1.4000 -1.4000 -1.4000 -1.4000 -1.4000 -1.4000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -1.400000 deltaH= 0.000000 kJ Co[3-Picoline]2++ formula= Co(C6H7N)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 245.1892 g 2 species in reaction 2.000 3Picol 1.000 Co++ -2.2000 -2.2000 -2.2000 -2.2000 -2.2000 -2.2000 -2.2000 -2.2000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.200000 deltaH= 0.000000 kJ Co[3-Picoline]3++ formula= Co(C6H7N)3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 338.3172 g 2 species in reaction 3.000 3Picol 1.000 Co++ -2.5000 -2.5000 -2.5000 -2.5000 -2.5000 -2.5000 -2.5000 -2.5000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.500000 deltaH= 0.000000 kJ Co[4-Picoline]++ formula= Co(C6H7N)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 152.0612 g 2 species in reaction 1.000 4Picol 1.000 Co++ -1.5600 -1.5600 -1.5600 -1.5600 -1.5600 -1.5600 -1.5600 -1.5600 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -1.560000 deltaH= 0.000000 kJ Co[4-Picoline]2++ formula= Co(C6H7N)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 245.1892 g 2 species in reaction 2.000 4Picol 1.000 Co++ -2.5100 -2.5100 -2.5100 -2.5100 -2.5100 -2.5100 -2.5100 -2.5100 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.510000 deltaH= 0.000000 kJ Co[4-Picoline]3++ formula= Co(C6H7N)3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 338.3172 g 2 species in reaction 3.000 4Picol 1.000 Co++ -2.9400 -2.9400 -2.9400 -2.9400 -2.9400 -2.9400 -2.9400 -2.9400 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.940000 deltaH= 0.000000 kJ Co[4-Picoline]4++ formula= Co(C6H7N)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 431.4452 g 2 species in reaction 4.000 4Picol 1.000 Co++ -3.1700 -3.1700 -3.1700 -3.1700 -3.1700 -3.1700 -3.1700 -3.1700 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -3.170000 deltaH= 0.000000 kJ Co[Ethylenediamine]++ formula= Co[C2H4(NH2)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 119.0318 g 2 species in reaction 1.000 Co++ 1.000 EtDiAm -5.9490 -5.7147 -5.5000 -5.2650 -5.0516 -4.8567 -4.6782 -4.5141 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -5.500000 deltaH= 28.000000 kJ Co[Ethylenediamine]2++ formula= Co[C2H4(NH2)2]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 179.1304 g 2 species in reaction 1.000 Co++ 2.000 EtDiAm -11.0380 -10.5485 -10.1000 -9.6091 -9.1631 -8.7560 -8.3831 -8.0401 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -10.100000 deltaH= 58.500000 kJ Co[Ethylenediamine]2+++ formula= Co[C2H4(NH2)2]2+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 179.1304 g 2 species in reaction 1.000 Co+++ 2.000 EtDiAm -34.7000 -34.7000 -34.7000 -34.7000 -34.7000 -34.7000 -34.7000 -34.7000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(3) -- using charge field value. * logK= -34.700000 deltaH= 0.000000 kJ Co[Ethylenediamine]3++ formula= Co[C2H4(NH2)2]3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 239.2290 g 2 species in reaction 1.000 Co++ 3.000 EtDiAm -14.6880 -13.9114 -13.2000 -12.4213 -11.7137 -11.0680 -10.4764 -9.9324 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -13.200000 deltaH= 92.800000 kJ Co[Ethylenediamine]3+++ formula= Co[C2H4(NH2)2]3+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 239.2290 g 2 species in reaction 1.000 Co+++ 3.000 EtDiAm -48.6900 -48.6900 -48.6900 -48.6900 -48.6900 -48.6900 -48.6900 -48.6900 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(3) -- using charge field value. * logK= -48.690000 deltaH= 0.000000 kJ Co[Phenylacetate]+ formula= Co(C8H7O2)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 194.0753 g 2 species in reaction 1.000 Co++ 1.000 PhAcO- -.5910 -.5910 -.5910 -.5910 -.5910 -.5910 -.5910 -.5910 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -0.591000 deltaH= 0.000000 kJ Co[Phenylacetate]2 formula= Co(C8H7O2)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 329.2174 g 2 species in reaction 1.000 Co++ 2.000 PhAcO- -.4765 -.4765 -.4765 -.4765 -.4765 -.4765 -.4765 -.4765 * logK= -0.476500 deltaH= 0.000000 kJ CoCl+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 94.3862 g 2 species in reaction 1.000 Co++ 1.000 Cl- .3821 .3653 .3500 .3332 .3180 .3041 .2913 .2796 * logK= 0.350000 deltaH= -2.000000 kJ CoCl++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 94.3862 g 2 species in reaction 1.000 Cl- 1.000 Co+++ -2.0520 -2.1858 -2.3085 -2.4428 -2.5648 -2.6761 -2.7781 -2.8719 * logK= -2.308500 deltaH= -16.000000 kJ CoCO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 118.9424 g 2 species in reaction 1.000 Co++ 1.000 CO3-- -4.2800 -4.2800 -4.2800 -4.2800 -4.2800 -4.2800 -4.2800 -4.2800 * logK= -4.280000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CoEDTA- formula= Co(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 347.1466 g 2 species in reaction 1.000 Co+++ 1.000 EDTA---- -43.9735 -43.9735 -43.9735 -43.9735 -43.9735 -43.9735 -43.9735 -43.9735 * logK= -43.973500 deltaH= 0.000000 kJ CoEDTA-- formula= Co(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 347.1466 g 2 species in reaction 1.000 Co++ 1.000 EDTA---- -18.4005 -18.2750 -18.1600 -18.0341 -17.9198 -17.8154 -17.7198 -17.6318 * logK= -18.160000 deltaH= 15.000000 kJ CoF+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 77.9316 g 2 species in reaction 1.000 Co++ 1.000 F- -1.2525 -1.3295 -1.4000 -1.4772 -1.5473 -1.6114 -1.6700 -1.7239 * logK= -1.400000 deltaH= -9.200000 kJ CoH-Citrate (aq) formula= CoH[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 249.0424 g 3 species in reaction 1.000 Co++ 1.000 H+ 1.000 Citrate--- -10.4500 -10.4500 -10.4500 -10.4500 -10.4500 -10.4500 -10.4500 -10.4500 * logK= -10.450000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CoH-DTPA-- formula= CoH(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 448.2514 g 3 species in reaction 1.000 Co++ 1.000 H+ 1.000 DTPA----- -26.5300 -26.5300 -26.5300 -26.5300 -26.5300 -26.5300 -26.5300 -26.5300 * logK= -26.530000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CoH-HEDTA (aq) formula= CoH(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 335.1788 g 3 species in reaction 1.000 Co++ 1.000 H+ 1.000 HEDTA--- -18.2500 -18.2500 -18.2500 -18.2500 -18.2500 -18.2500 -18.2500 -18.2500 * logK= -18.250000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CoH-Malate+ formula= CoH(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 192.0137 g 3 species in reaction 1.000 Co++ 1.000 H+ 1.000 Malate-- -7.1700 -7.1700 -7.1700 -7.1700 -7.1700 -7.1700 -7.1700 -7.1700 * logK= -7.170000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CoH-Malonate+ formula= CoH[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 161.9875 g 3 species in reaction 1.000 Malonate-- 1.000 Co++ 1.000 H+ -6.9500 -6.9500 -6.9500 -6.9500 -6.9500 -6.9500 -6.9500 -6.9500 * logK= -6.950000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CoH-Oxalate+ formula= CoH[(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 147.9607 g 3 species in reaction 1.000 Co++ 1.000 H+ 1.000 Oxalate-- -6.3100 -6.3100 -6.3100 -6.3100 -6.3100 -6.3100 -6.3100 -6.3100 * logK= -6.310000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CoH-Phthalate+ formula= CoH[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 224.0583 g 3 species in reaction 1.000 Co++ 1.000 H+ 1.000 Phthalate-- -7.2200 -7.2200 -7.2200 -7.2200 -7.2200 -7.2200 -7.2200 -7.2200 * logK= -7.220000 deltaH= 0.000000 kJ CoH-Succinate+ formula= CoH[(CH2)2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 176.0143 g 3 species in reaction 1.000 Co++ 1.000 H+ 1.000 Succinate-- -7.0600 -7.0600 -7.0600 -7.0600 -7.0600 -7.0600 -7.0600 -7.0600 * logK= -7.060000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CoH-Tartrate+ formula= CoH(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 208.0131 g 3 species in reaction 1.000 Co++ 1.000 Tartrate-- 1.000 H+ -5.7600 -5.7600 -5.7600 -5.7600 -5.7600 -5.7600 -5.7600 -5.7600 * logK= -5.760000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CoH2-Citrate+ formula= CoH2[C3H5O(COO)3]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 250.0503 g 3 species in reaction 1.000 Co++ 2.000 H+ 1.000 Citrate--- -12.7900 -12.7900 -12.7900 -12.7900 -12.7900 -12.7900 -12.7900 -12.7900 * logK= -12.790000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CoH2EDTA (aq) formula= CoH2(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 349.1624 g 3 species in reaction 1.000 Co++ 2.000 H+ 1.000 EDTA---- -23.4900 -23.4900 -23.4900 -23.4900 -23.4900 -23.4900 -23.4900 -23.4900 * logK= -23.490000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CoHCO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 119.9503 g 3 species in reaction 1.000 Co++ 1.000 H+ 1.000 CO3-- -12.2200 -12.2200 -12.2200 -12.2200 -12.2200 -12.2200 -12.2200 -12.2200 * logK= -12.220000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CoHEDTA (aq) formula= CoH(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 348.1545 g 3 species in reaction 1.000 Co+++ 1.000 H+ 1.000 EDTA---- -47.1680 -47.1680 -47.1680 -47.1680 -47.1680 -47.1680 -47.1680 -47.1680 * logK= -47.168000 deltaH= 0.000000 kJ CoHEDTA- formula= CoH(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 348.1545 g 3 species in reaction 1.000 Co++ 1.000 H+ 1.000 EDTA---- -21.9572 -21.7656 -21.5900 -21.3978 -21.2232 -21.0639 -20.9179 -20.7837 * logK= -21.590000 deltaH= 22.900000 kJ CoHPO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 154.9125 g 3 species in reaction 1.000 Co++ 1.000 H+ 1.000 PO4--- -15.4300 -15.4300 -15.4300 -15.4300 -15.4300 -15.4300 -15.4300 -15.4300 * logK= -15.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CoHS+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 92.0051 g 2 species in reaction 1.000 Co++ 1.000 HS- -5.2000 -5.2000 -5.2000 -5.2000 -5.2000 -5.2000 -5.2000 -5.2000 * logK= -5.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CoNO2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 104.9387 g 2 species in reaction 1.000 Co++ 1.000 NO2- -.8500 -.8500 -.8500 -.8500 -.8500 -.8500 -.8500 -.8500 * logK= -0.850000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CoNO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 120.9381 g 2 species in reaction 1.000 Co++ 1.000 NO3- -.2000 -.2000 -.2000 -.2000 -.2000 -.2000 -.2000 -.2000 * logK= -0.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CoNTA- formula= Co[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 247.0497 g 2 species in reaction 1.000 Co++ 1.000 NTA--- -11.6921 -11.6753 -11.6600 -11.6432 -11.6280 -11.6141 -11.6013 -11.5896 * logK= -11.660000 deltaH= 2.000000 kJ CoOH+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 75.9405 g 3 species in reaction 1.000 Co++ -1.000 H+ 1.000 H2O 9.6970 9.6970 9.6970 9.6970 9.6970 9.6970 9.6970 9.6970 * logK= 9.697000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CoOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 75.9405 g 3 species in reaction 1.000 Co+++ -1.000 H+ 1.000 H2O 1.2910 1.2910 1.2910 1.2910 1.2910 1.2910 1.2910 1.2910 * logK= 1.291000 deltaH= 0.000000 kJ CoOH-Glycine (aq) formula= CoOH[NH2CH2COO] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 149.9996 g 4 species in reaction 1.000 Co++ 1.000 Glycine- -1.000 H+ 1.000 H2O 5.0100 5.0100 5.0100 5.0100 5.0100 5.0100 5.0100 5.0100 * logK= 5.010000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CoOHNTA-- formula= CoOH[N(CH2COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 264.0570 g 4 species in reaction 1.000 Co++ 1.000 NTA--- -1.000 H+ 1.000 H2O -.3048 -.3701 -.4300 -.4955 -.5551 -.6094 -.6592 -.7050 * logK= -0.430000 deltaH= -7.810000 kJ CoS2O3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 171.0594 g 2 species in reaction 1.000 S2O3-- 1.000 Co++ -2.0179 -2.0347 -2.0500 -2.0668 -2.0820 -2.0959 -2.1087 -2.1204 * logK= -2.050000 deltaH= -2.000000 kJ CoSCN+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 117.0149 g 2 species in reaction 1.000 Co++ 1.000 SCN- -1.8258 -1.7706 -1.7200 -1.6646 -1.6143 -1.5684 -1.5263 -1.4876 * logK= -1.720000 deltaH= 6.600000 kJ CoSeO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 201.8908 g 2 species in reaction 1.000 Co++ 1.000 SeO4-- -2.5076 -2.6080 -2.7000 -2.8007 -2.8922 -2.9757 -3.0522 -3.1225 * logK= -2.700000 deltaH= -12.000000 kJ CoSO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 138.9954 g 2 species in reaction 1.000 Co++ 1.000 SO3-- -3.0800 -3.0800 -3.0800 -3.0800 -3.0800 -3.0800 -3.0800 -3.0800 * logK= -3.080000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CoSO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 154.9948 g 2 species in reaction 1.000 Co++ 1.000 SO4-- -2.2006 -2.2525 -2.3000 -2.3520 -2.3993 -2.4424 -2.4820 -2.5183 * logK= -2.300000 deltaH= -6.200000 kJ Cr(NH3)2+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 86.0568 g 3 species in reaction 2.000 NH4+ -2.000 H2O 1.000 Cr(OH)2+ 4.5400 4.5400 4.5400 4.5400 4.5400 4.5400 4.5400 4.5400 * logK= 4.540000 deltaH= 0.000000 kJ Cr(NH3)6Br++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 234.0824 g 5 species in reaction 1.000 Br- -4.000 H+ 6.000 NH4+ -2.000 H2O 1.000 Cr(OH)2+ 31.8870 31.8870 31.8870 31.8870 31.8870 31.8870 31.8870 31.8870 * logK= 31.887000 deltaH= 0.000000 kJ Cr(NH3)6Cl++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 189.6314 g 5 species in reaction 1.000 Cl- -4.000 H+ 6.000 NH4+ -2.000 H2O 1.000 Cr(OH)2+ 31.7932 31.7932 31.7932 31.7932 31.7932 31.7932 31.7932 31.7932 * logK= 31.793200 deltaH= 0.000000 kJ Cr(NH3)6I++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 281.0828 g 5 species in reaction -4.000 H+ 6.000 NH4+ 1.000 I- -2.000 H2O 1.000 Cr(OH)2+ 32.0080 32.0080 32.0080 32.0080 32.0080 32.0080 32.0080 32.0080 * logK= 32.008000 deltaH= 0.000000 kJ Cr(NTA)2--- formula= Cr[N(CH2COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 428.2290 g 4 species in reaction 2.000 NTA--- 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ -29.5000 -29.5000 -29.5000 -29.5000 -29.5000 -29.5000 -29.5000 -29.5000 * logK= -29.500000 deltaH= 0.000000 kJ Cr(OH)3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 103.0179 g 3 species in reaction -1.000 H+ 1.000 H2O 1.000 Cr(OH)2+ 6.3500 6.3500 6.3500 6.3500 6.3500 6.3500 6.3500 6.3500 * logK= 6.350000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cr(OH)4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 120.0252 g 3 species in reaction -2.000 H+ 2.000 H2O 1.000 Cr(OH)2+ 17.8100 17.8100 17.8100 17.8100 17.8100 17.8100 17.8100 17.8100 * logK= 17.810000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cr(SCN)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 168.1594 g 4 species in reaction 2.000 H+ 2.000 SCN- -2.000 H2O 1.000 Cr(OH)2+ -13.8400 -13.8400 -13.8400 -13.8400 -13.8400 -13.8400 -13.8400 -13.8400 * logK= -13.840000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cr+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 51.9960 g 3 species in reaction 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ -11.3411 -10.5577 -9.8400 -9.0544 -8.3406 -7.6892 -7.0924 -6.5435 * logK= -9.840000 deltaH= 93.620000 kJ Cr-(Acetate)2 (aq) formula= Cr(CH3COO)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 170.0850 g 2 species in reaction 2.000 Acetate- 1.000 Cr++ -2.9200 -2.9200 -2.9200 -2.9200 -2.9200 -2.9200 -2.9200 -2.9200 * logK= -2.920000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cr-(Acetate)2+ formula= Cr(CH3COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 170.0850 g 4 species in reaction 2.000 Acetate- 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ -18.2600 -18.2600 -18.2600 -18.2600 -18.2600 -18.2600 -18.2600 -18.2600 * logK= -18.260000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cr-(Acetate)3 (aq) formula= Cr(CH3COO)3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 229.1295 g 4 species in reaction 3.000 Acetate- 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ -22.0601 -21.5330 -21.0500 -20.5213 -20.0410 -19.6027 -19.2010 -18.8317 * logK= -21.050000 deltaH= 63.000000 kJ Cr-(Glutamate)2- formula= Cr(C5H7NO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 342.2252 g 4 species in reaction 2.000 Glutamate-- 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ -30.7000 -30.7000 -30.7000 -30.7000 -30.7000 -30.7000 -30.7000 -30.7000 * logK= -30.700000 deltaH= 0.000000 kJ Cr-(Glutamate)2-- formula= Cr(C5H7NO4)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 342.2252 g 2 species in reaction 1.000 Cr++ 2.000 Glutamate-- -8.3100 -8.3100 -8.3100 -8.3100 -8.3100 -8.3100 -8.3100 -8.3100 * logK= -8.310000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cr-(Glycine)2+ formula= Cr[NH2CH2COO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 200.1142 g 4 species in reaction 2.000 Glycine- 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ -25.6000 -25.6000 -25.6000 -25.6000 -25.6000 -25.6000 -25.6000 -25.6000 * logK= -25.600000 deltaH= 0.000000 kJ Cr-(Glycine)3 (aq) formula= Cr[NH2CH2COO]3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 274.1733 g 4 species in reaction 3.000 Glycine- 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ -31.6000 -31.6000 -31.6000 -31.6000 -31.6000 -31.6000 -31.6000 -31.6000 * logK= -31.600000 deltaH= 0.000000 kJ Cr-(Malonate)2-- formula= Cr[CH2(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 256.0888 g 2 species in reaction 2.000 Malonate-- 1.000 Cr++ -7.9900 -7.9900 -7.9900 -7.9900 -7.9900 -7.9900 -7.9900 -7.9900 * logK= -7.990000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cr-(Phthalate)2- formula= Cr[C6H4(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 380.2304 g 4 species in reaction 2.000 Phthalate-- 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ -21.2000 -21.2000 -21.2000 -21.2000 -21.2000 -21.2000 -21.2000 -21.2000 * logK= -21.200000 deltaH= 0.000000 kJ Cr-(Phthalate)3--- formula= Cr[C6H4(COO)2]3--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 544.3476 g 4 species in reaction 3.000 Phthalate-- 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ -23.3000 -23.3000 -23.3000 -23.3000 -23.3000 -23.3000 -23.3000 -23.3000 * logK= -23.300000 deltaH= 0.000000 kJ Cr-(Propionate)2+ formula= Cr(CH3CH2COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 198.1386 g 4 species in reaction 2.000 Propionate- 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ -18.2200 -18.2200 -18.2200 -18.2200 -18.2200 -18.2200 -18.2200 -18.2200 * logK= -18.220000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cr-(Propionate)3 (aq) formula= Cr(CH3CH2COO)3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 271.2099 g 4 species in reaction 3.000 Propionate- 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ -20.5200 -20.5200 -20.5200 -20.5200 -20.5200 -20.5200 -20.5200 -20.5200 * logK= -20.520000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cr-Acetate+ formula= Cr(CH3COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 111.0405 g 2 species in reaction 1.000 Acetate- 1.000 Cr++ -1.8000 -1.8000 -1.8000 -1.8000 -1.8000 -1.8000 -1.8000 -1.8000 * logK= -1.800000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cr-Acetate++ formula= Cr(CH3COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 111.0405 g 4 species in reaction 1.000 Acetate- 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ -16.7166 -15.9669 -15.2800 -14.5281 -13.8450 -13.2216 -12.6504 -12.1251 * logK= -15.280000 deltaH= 89.600000 kJ Cr-Formate+ formula= Cr[HCOO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 97.0137 g 2 species in reaction 1.000 Cr++ 1.000 Formate- -1.0700 -1.0700 -1.0700 -1.0700 -1.0700 -1.0700 -1.0700 -1.0700 * logK= -1.070000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cr-Glutamate (aq) formula= Cr(C5H7NO4) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 197.1106 g 2 species in reaction 1.000 Cr++ 1.000 Glutamate-- -5.4500 -5.4500 -5.4500 -5.4500 -5.4500 -5.4500 -5.4500 -5.4500 * logK= -5.450000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cr-Glutamate+ formula= Cr(C5H7NO4)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 197.1106 g 4 species in reaction 1.000 Glutamate-- 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ -22.6000 -22.6000 -22.6000 -22.6000 -22.6000 -22.6000 -22.6000 -22.6000 * logK= -22.600000 deltaH= 0.000000 kJ Cr-Glycine+ formula= Cr[NH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 126.0551 g 2 species in reaction 1.000 Glycine- 1.000 Cr++ -4.6200 -4.6200 -4.6200 -4.6200 -4.6200 -4.6200 -4.6200 -4.6200 * logK= -4.620000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cr-Glycine++ formula= Cr[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 126.0551 g 4 species in reaction 1.000 Glycine- 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ -18.7000 -18.7000 -18.7000 -18.7000 -18.7000 -18.7000 -18.7000 -18.7000 * logK= -18.700000 deltaH= 0.000000 kJ Cr-Malonate (aq) formula= Cr[CH2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 154.0424 g 2 species in reaction 1.000 Malonate-- 1.000 Cr++ -4.7900 -4.7900 -4.7900 -4.7900 -4.7900 -4.7900 -4.7900 -4.7900 * logK= -4.790000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cr-Oxalate (aq) formula= Cr[(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 140.0156 g 2 species in reaction 1.000 Cr++ 1.000 Oxalate-- -4.7100 -4.7100 -4.7100 -4.7100 -4.7100 -4.7100 -4.7100 -4.7100 * logK= -4.710000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cr-Phthalate (aq) formula= Cr[C6H4(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 216.1132 g 2 species in reaction 1.000 Cr++ 1.000 Phthalate-- -3.2900 -3.2900 -3.2900 -3.2900 -3.2900 -3.2900 -3.2900 -3.2900 * logK= -3.290000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cr-Phthalate+ formula= Cr[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 216.1132 g 4 species in reaction 1.000 Phthalate-- 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ -16.3000 -16.3000 -16.3000 -16.3000 -16.3000 -16.3000 -16.3000 -16.3000 * logK= -16.300000 deltaH= 0.000000 kJ Cr-Propionate++ formula= Cr(CH3CH2COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 125.0673 g 4 species in reaction 1.000 Propionate- 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ -16.7866 -16.0369 -15.3500 -14.5981 -13.9150 -13.2916 -12.7204 -12.1951 * logK= -15.350000 deltaH= 89.600000 kJ Cr-Tartrate (aq) formula= Cr(C4H4O6) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 200.0680 g 2 species in reaction 1.000 Tartrate-- 1.000 Cr++ -2.9600 -2.9600 -2.9600 -2.9600 -2.9600 -2.9600 -2.9600 -2.9600 * logK= -2.960000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cr2(OH)2(SO4)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 330.1298 g 4 species in reaction 2.000 H+ -2.000 H2O 2.000 Cr(OH)2+ 2.000 SO4-- -17.9288 -17.9288 -17.9288 -17.9288 -17.9288 -17.9288 -17.9288 -17.9288 * logK= -17.928800 deltaH= 0.000000 kJ Cr2(OH)2++++ charge= 4 ion size= 0.0 A b= 0.0000 mole wt.= 138.0066 g 3 species in reaction 2.000 H+ -2.000 H2O 2.000 Cr(OH)2+ -14.6800 -14.6800 -14.6800 -14.6800 -14.6800 -14.6800 -14.6800 -14.6800 * logK= -14.680000 deltaH= 0.000000 kJ Cr2(OH)2SO4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 234.0682 g 4 species in reaction 2.000 H+ -2.000 H2O 2.000 Cr(OH)2+ 1.000 SO4-- -16.1550 -16.1550 -16.1550 -16.1550 -16.1550 -16.1550 -16.1550 -16.1550 * logK= -16.155000 deltaH= 0.000000 kJ Cr2O7-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 215.9878 g 3 species in reaction 2.000 CrO4-- 2.000 H+ -1.000 H2O -14.8005 -14.6750 -14.5600 -14.4341 -14.3198 -14.2154 -14.1198 -14.0318 * logK= -14.560000 deltaH= 15.000000 kJ Cr3(OH)4+++++ charge= 5 ion size= 0.0 A b= 0.0000 mole wt.= 224.0172 g 3 species in reaction 2.000 H+ -2.000 H2O 3.000 Cr(OH)2+ -18.7700 -18.7700 -18.7700 -18.7700 -18.7700 -18.7700 -18.7700 -18.7700 * logK= -18.770000 deltaH= 0.000000 kJ Cr[Ethylenediamine]2+++ formula= Cr[C2H4(NH2)2]2+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 172.1932 g 4 species in reaction 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ 2.000 EtDiAm -22.5700 -22.5700 -22.5700 -22.5700 -22.5700 -22.5700 -22.5700 -22.5700 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(3) -- using charge field value. * logK= -22.570000 deltaH= 0.000000 kJ Cr[Ethylenediamine]3+++ formula= Cr[C2H4(NH2)2]3+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 232.2918 g 4 species in reaction 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ 3.000 EtDiAm -29.0000 -29.0000 -29.0000 -29.0000 -29.0000 -29.0000 -29.0000 -29.0000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(3) -- using charge field value. * logK= -29.000000 deltaH= 0.000000 kJ CrBr++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 131.9000 g 4 species in reaction 1.000 Br- 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ -13.2675 -12.7939 -12.3600 -11.8850 -11.4535 -11.0597 -10.6989 -10.3670 * logK= -12.360000 deltaH= 56.600000 kJ CrBr2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 211.8040 g 4 species in reaction 2.000 Br- 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ -13.3000 -13.3000 -13.3000 -13.3000 -13.3000 -13.3000 -13.3000 -13.3000 * logK= -13.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CrBr3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 291.7080 g 4 species in reaction 3.000 Br- 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ -14.2400 -14.2400 -14.2400 -14.2400 -14.2400 -14.2400 -14.2400 -14.2400 * logK= -14.240000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CrCl++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 87.4490 g 4 species in reaction 1.000 Cl- 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ -10.3839 -9.8182 -9.3000 -8.7327 -8.2173 -7.7470 -7.3160 -6.9197 * logK= -9.300000 deltaH= 67.600000 kJ CrEDTA- formula= Cr(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 340.2094 g 4 species in reaction 2.000 H+ 1.000 EDTA---- -2.000 H2O 1.000 Cr(OH)2+ -35.8000 -35.8000 -35.8000 -35.8000 -35.8000 -35.8000 -35.8000 -35.8000 * logK= -35.800000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CrEDTA-- formula= Cr(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 340.2094 g 2 species in reaction 1.000 Cr++ 1.000 EDTA---- -15.3100 -15.3100 -15.3100 -15.3100 -15.3100 -15.3100 -15.3100 -15.3100 * logK= -15.310000 deltaH= 0.000000 kJ CrF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 70.9944 g 4 species in reaction 2.000 H+ -2.000 H2O 1.000 F- 1.000 Cr(OH)2+ -16.3804 -15.6809 -15.0400 -14.3385 -13.7011 -13.1194 -12.5864 -12.0963 * logK= -15.040000 deltaH= 83.600000 kJ CrF2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 89.9928 g 4 species in reaction 2.000 H+ 2.000 F- -2.000 H2O 1.000 Cr(OH)2+ -18.8800 -18.8800 -18.8800 -18.8800 -18.8800 -18.8800 -18.8800 -18.8800 * logK= -18.880000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CrF3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 108.9912 g 4 species in reaction 2.000 H+ 3.000 F- -2.000 H2O 1.000 Cr(OH)2+ -21.5500 -21.5500 -21.5500 -21.5500 -21.5500 -21.5500 -21.5500 -21.5500 * logK= -21.550000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CrH-Glutamate+ formula= CrH(C5H7NO4)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 198.1185 g 3 species in reaction 1.000 Cr++ 1.000 Glutamate-- 1.000 H+ -11.8400 -11.8400 -11.8400 -11.8400 -11.8400 -11.8400 -11.8400 -11.8400 * logK= -11.840000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CrH-Glutamate++ formula= CrH(C5H7NO4)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 198.1185 g 4 species in reaction 1.000 Glutamate-- 3.000 H+ -2.000 H2O 1.000 Cr(OH)2+ -25.2000 -25.2000 -25.2000 -25.2000 -25.2000 -25.2000 -25.2000 -25.2000 * logK= -25.200000 deltaH= 0.000000 kJ CrH-Malonate+ formula= CrH[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 155.0503 g 3 species in reaction 1.000 Malonate-- 1.000 Cr++ 1.000 H+ -7.5700 -7.5700 -7.5700 -7.5700 -7.5700 -7.5700 -7.5700 -7.5700 * logK= -7.570000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CrH-Tartrate+ formula= CrH(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 201.0759 g 3 species in reaction 1.000 Tartrate-- 1.000 Cr++ 1.000 H+ -6.3700 -6.3700 -6.3700 -6.3700 -6.3700 -6.3700 -6.3700 -6.3700 * logK= -6.370000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CrH2PO4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 148.9832 g 4 species in reaction 4.000 H+ 1.000 PO4--- -2.000 H2O 1.000 Cr(OH)2+ -31.9068 -31.9068 -31.9068 -31.9068 -31.9068 -31.9068 -31.9068 -31.9068 * logK= -31.906800 deltaH= 0.000000 kJ CrHEDTA (aq) formula= CrH(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 341.2173 g 4 species in reaction 3.000 H+ 1.000 EDTA---- -2.000 H2O 1.000 Cr(OH)2+ -37.7200 -37.7200 -37.7200 -37.7200 -37.7200 -37.7200 -37.7200 -37.7200 * logK= -37.720000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CrHEDTA- formula= CrH(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 341.2173 g 3 species in reaction 1.000 Cr++ 1.000 H+ 1.000 EDTA---- -19.1000 -19.1000 -19.1000 -19.1000 -19.1000 -19.1000 -19.1000 -19.1000 * logK= -19.100000 deltaH= 0.000000 kJ CrHPO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 147.9753 g 4 species in reaction 3.000 H+ 1.000 PO4--- -2.000 H2O 1.000 Cr(OH)2+ -26.0600 -26.0600 -26.0600 -26.0600 -26.0600 -26.0600 -26.0600 -26.0600 * logK= -26.060000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CrI++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 178.9004 g 4 species in reaction 2.000 H+ 1.000 I- -2.000 H2O 1.000 Cr(OH)2+ -4.8289 -4.8289 -4.8289 -4.8289 -4.8289 -4.8289 -4.8289 -4.8289 * logK= -4.828900 deltaH= 0.000000 kJ CrNH3+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 69.0264 g 4 species in reaction 1.000 H+ 1.000 NH4+ -2.000 H2O 1.000 Cr(OH)2+ -5.0000 -5.0000 -5.0000 -5.0000 -5.0000 -5.0000 -5.0000 -5.0000 * logK= -5.000000 deltaH= 0.000000 kJ CrNO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 114.0009 g 4 species in reaction 1.000 NO3- 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ -9.2586 -8.7111 -8.2094 -7.6603 -7.1614 -6.7060 -6.2889 -5.9053 * logK= -8.209400 deltaH= 65.437800 kJ CrNTA (aq) formula= Cr[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 240.1125 g 4 species in reaction 1.000 NTA--- 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ -21.2000 -21.2000 -21.2000 -21.2000 -21.2000 -21.2000 -21.2000 -21.2000 * logK= -21.200000 deltaH= 0.000000 kJ CrO3Cl- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 135.4472 g 4 species in reaction 1.000 CrO4-- 1.000 Cl- 2.000 H+ -1.000 H2O -7.3086 -7.3086 -7.3086 -7.3086 -7.3086 -7.3086 -7.3086 -7.3086 * logK= -7.308600 deltaH= 0.000000 kJ CrO3H2PO4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 196.9814 g 4 species in reaction 1.000 CrO4-- 4.000 H+ 1.000 PO4--- -1.000 H2O -29.3634 -29.3634 -29.3634 -29.3634 -29.3634 -29.3634 -29.3634 -29.3634 * logK= -29.363400 deltaH= 0.000000 kJ CrO3HPO4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 195.9735 g 4 species in reaction 1.000 CrO4-- 3.000 H+ 1.000 PO4--- -1.000 H2O -26.6806 -26.6806 -26.6806 -26.6806 -26.6806 -26.6806 -26.6806 -26.6806 * logK= -26.680600 deltaH= 0.000000 kJ CrO3SO4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 196.0558 g 4 species in reaction 1.000 CrO4-- 2.000 H+ -1.000 H2O 1.000 SO4-- -8.9937 -8.9937 -8.9937 -8.9937 -8.9937 -8.9937 -8.9937 -8.9937 * logK= -8.993700 deltaH= 0.000000 kJ CrOH+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 69.0033 g 3 species in reaction 1.000 Cr++ -1.000 H+ 1.000 H2O 5.0870 5.0870 5.0870 5.0870 5.0870 5.0870 5.0870 5.0870 * logK= 5.087000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CrOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 69.0033 g 3 species in reaction 1.000 H+ -1.000 H2O 1.000 Cr(OH)2+ -6.9420 -6.5913 -6.2700 -5.9183 -5.5988 -5.3072 -5.0400 -4.7943 * logK= -6.270000 deltaH= 41.910000 kJ CrOHEDTA-- formula= CrOH(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 357.2167 g 4 species in reaction 1.000 H+ 1.000 EDTA---- -1.000 H2O 1.000 Cr(OH)2+ -28.0000 -28.0000 -28.0000 -28.0000 -28.0000 -28.0000 -28.0000 -28.0000 * logK= -28.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CrOHSO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 165.0649 g 4 species in reaction 1.000 H+ -1.000 H2O 1.000 Cr(OH)2+ 1.000 SO4-- -8.2871 -8.2871 -8.2871 -8.2871 -8.2871 -8.2871 -8.2871 -8.2871 * logK= -8.287100 deltaH= 0.000000 kJ CrSCN+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 110.0777 g 2 species in reaction 1.000 Cr++ 1.000 SCN- -1.0900 -1.0900 -1.0900 -1.0900 -1.0900 -1.0900 -1.0900 -1.0900 * logK= -1.090000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CrSCN++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 110.0777 g 4 species in reaction 2.000 H+ 1.000 SCN- -2.000 H2O 1.000 Cr(OH)2+ -14.5591 -13.7089 -12.9300 -12.0774 -11.3028 -10.5959 -9.9482 -9.3525 * logK= -12.930000 deltaH= 101.600000 kJ CrSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 148.0576 g 4 species in reaction 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ 1.000 SO4-- -14.5184 -13.6931 -12.9371 -12.1095 -11.3576 -10.6714 -10.0427 -9.4646 * logK= -12.937100 deltaH= 98.620000 kJ Cs-Acetate (aq) formula= Cs(CH3COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 191.9495 g 2 species in reaction 1.000 Cs+ 1.000 Acetate- .1200 .1200 .1200 .1200 .1200 .1200 .1200 .1200 * logK= 0.120000 deltaH= 0.000000 kJ Cs-Citrate-- formula= Cs[C3H5O(COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 322.0063 g 2 species in reaction 1.000 Cs+ 1.000 Citrate--- -.9600 -.9600 -.9600 -.9600 -.9600 -.9600 -.9600 -.9600 * logK= -0.960000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cs-Malate- formula= Cs(C4H4O5)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 264.9776 g 2 species in reaction 1.000 Cs+ 1.000 Malate-- -.2800 -.2800 -.2800 -.2800 -.2800 -.2800 -.2800 -.2800 * logK= -0.280000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cs-Malonate- formula= Cs[CH2(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 234.9514 g 2 species in reaction 1.000 Malonate-- 1.000 Cs+ -.7000 -.7000 -.7000 -.7000 -.7000 -.7000 -.7000 -.7000 * logK= -0.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cs-Tartrate- formula= Cs(C4H4O6)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 280.9770 g 2 species in reaction 1.000 Cs+ 1.000 Tartrate-- -.7300 -.7300 -.7300 -.7300 -.7300 -.7300 -.7300 -.7300 * logK= -0.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CsBr (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 212.8090 g 2 species in reaction 1.000 Cs+ 1.000 Br- -.0300 -.0300 -.0300 -.0300 -.0300 -.0300 -.0300 -.0300 * logK= -0.030000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CsCl (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 168.3580 g 2 species in reaction 1.000 Cs+ 1.000 Cl- .1000 .1000 .1000 .1000 .1000 .1000 .1000 .1000 * logK= 0.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CsClO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 232.3556 g 2 species in reaction 1.000 Cs+ 1.000 ClO4- -.2300 -.2300 -.2300 -.2300 -.2300 -.2300 -.2300 -.2300 * logK= -0.230000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CsCO3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 192.9142 g 2 species in reaction 1.000 Cs+ 1.000 CO3-- .2900 .2900 .2900 .2900 .2900 .2900 .2900 .2900 * logK= 0.290000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CsEDTA--- formula= Cs(C10H12N2O8)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 421.1184 g 2 species in reaction 1.000 Cs+ 1.000 EDTA---- -1.0500 -1.0500 -1.0500 -1.0500 -1.0500 -1.0500 -1.0500 -1.0500 * logK= -1.050000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CsF (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 151.9034 g 2 species in reaction 1.000 Cs+ 1.000 F- .3600 .3600 .3600 .3600 .3600 .3600 .3600 .3600 * logK= 0.360000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CsI (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 259.8094 g 2 species in reaction 1.000 Cs+ 1.000 I- .0300 .0300 .0300 .0300 .0300 .0300 .0300 .0300 * logK= 0.030000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CsNO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 194.9099 g 2 species in reaction 1.000 Cs+ 1.000 NO3- -.0200 -.0200 -.0200 -.0200 -.0200 -.0200 -.0200 -.0200 * logK= -0.020000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CsNTA-- formula= Cs[N(CH2COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 321.0215 g 2 species in reaction 1.000 Cs+ 1.000 NTA--- -.8400 -.8400 -.8400 -.8400 -.8400 -.8400 -.8400 -.8400 * logK= -0.840000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CsSO4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 228.9666 g 2 species in reaction 1.000 Cs+ 1.000 SO4-- -1.0400 -1.0400 -1.0400 -1.0400 -1.0400 -1.0400 -1.0400 -1.0400 * logK= -1.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cu(CN)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 115.5814 g 2 species in reaction 1.000 Cu+ 2.000 CN- -25.8401 -24.8276 -23.9000 -22.8846 -21.9621 -21.1202 -20.3488 -19.6394 * logK= -23.900000 deltaH= 121.000000 kJ Cu(CN)3-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 141.5991 g 2 species in reaction 1.000 Cu+ 3.000 CN- -31.8841 -30.4833 -29.2000 -27.7953 -26.5189 -25.3542 -24.2870 -23.3056 * logK= -29.200000 deltaH= 167.400000 kJ Cu(CN)4--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 167.6168 g 2 species in reaction 1.000 Cu+ 4.000 CN- -34.1345 -32.3421 -30.7000 -28.9025 -27.2694 -25.7790 -24.4135 -23.1578 * logK= -30.700000 deltaH= 214.200000 kJ Cu(CO3)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 183.5644 g 2 species in reaction 1.000 Cu++ 2.000 CO3-- -10.2000 -10.2000 -10.2000 -10.2000 -10.2000 -10.2000 -10.2000 -10.2000 * logK= -10.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cu(H2BO3)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 185.1940 g 3 species in reaction 1.000 Cu++ 2.000 H3BO3 -2.000 H+ 11.5900 11.5900 11.5900 11.5900 11.5900 11.5900 11.5900 11.5900 * logK= 11.590000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cu(NH3)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 97.6068 g 3 species in reaction -2.000 H+ 1.000 Cu+ 2.000 NH4+ -.6800 -.6800 -.6800 -.6800 -.6800 -.6800 -.6800 -.6800 * logK= -0.680000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cu(NH3)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 97.6068 g 3 species in reaction 1.000 Cu++ -2.000 H+ 2.000 NH4+ 12.0809 11.5638 11.0900 10.5714 10.1002 9.6702 9.2762 8.9139 * logK= 11.090000 deltaH= -61.800000 kJ Cu(NH3)3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 114.6372 g 3 species in reaction 1.000 Cu++ -3.000 H+ 3.000 NH4+ 19.0324 18.2483 17.5300 16.7437 16.0293 15.3774 14.7800 14.2307 * logK= 17.530000 deltaH= -93.700000 kJ Cu(NH3)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 131.6676 g 3 species in reaction 1.000 Cu++ -4.000 H+ 4.000 NH4+ 26.6265 25.6107 24.6800 23.6613 22.7357 21.8910 21.1171 20.4054 * logK= 24.680000 deltaH= -121.400000 kJ Cu(NO2)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 155.5570 g 2 species in reaction 1.000 Cu++ 2.000 NO2- -3.0300 -3.0300 -3.0300 -3.0300 -3.0300 -3.0300 -3.0300 -3.0300 * logK= -3.030000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cu(NO3)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 187.5558 g 2 species in reaction 1.000 Cu++ 2.000 NO3- .4000 .4000 .4000 .4000 .4000 .4000 .4000 .4000 * logK= 0.400000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cu(NTA)2---- formula= Cu[N(CH2COO)3]2---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 439.7790 g 2 species in reaction 1.000 Cu++ 2.000 NTA--- -18.6012 -18.3083 -18.0400 -17.7463 -17.4794 -17.2359 -17.0128 -16.8076 * logK= -18.040000 deltaH= 35.000000 kJ Cu(OH)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 97.5606 g 3 species in reaction 1.000 Cu++ -2.000 H+ 2.000 H2O 17.7228 16.9437 16.2300 15.4487 14.7389 14.0911 13.4976 12.9518 * logK= 16.230000 deltaH= -93.100000 kJ Cu(OH)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 114.5679 g 3 species in reaction 1.000 Cu++ -3.000 H+ 3.000 H2O 26.6400 26.6400 26.6400 26.6400 26.6400 26.6400 26.6400 26.6400 * logK= 26.640000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cu(OH)4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 131.5752 g 3 species in reaction 1.000 Cu++ -4.000 H+ 4.000 H2O 42.5921 41.0984 39.7300 38.2321 36.8712 35.6292 34.4913 33.4448 * logK= 39.730000 deltaH= -178.500000 kJ Cu(S4)2--- charge= -3 ion size= 23.0 A b= 0.0000 mole wt.= 320.0580 g 4 species in reaction -2.000 H+ 1.000 Cu+ 2.000 HS- 6.000 S -3.3900 -3.3900 -3.3900 -3.3900 -3.3900 -3.3900 -3.3900 -3.3900 * logK= -3.390000 deltaH= 0.000000 kJ Cu(SCN)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 179.7094 g 2 species in reaction 1.000 Cu++ 2.000 SCN- -4.0508 -3.8417 -3.6500 -3.4402 -3.2496 -3.0757 -2.9163 -2.7697 * logK= -3.650000 deltaH= 25.000000 kJ Cu(SO3)2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 223.6704 g 2 species in reaction 1.000 Cu+ 2.000 SO3-- -8.7000 -8.7000 -8.7000 -8.7000 -8.7000 -8.7000 -8.7000 -8.7000 * logK= -8.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cu-(Acetate)2 (aq) formula= Cu(CH3COO)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 181.6350 g 2 species in reaction 1.000 Cu++ 2.000 Acetate- -3.2236 -3.3157 -3.4000 -3.4923 -3.5762 -3.6527 -3.7228 -3.7873 * logK= -3.400000 deltaH= -11.000000 kJ Cu-(Acetate)3- formula= Cu(CH3COO)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 240.6795 g 2 species in reaction 1.000 Cu++ 3.000 Acetate- -3.8406 -3.8925 -3.9400 -3.9920 -4.0393 -4.0824 -4.1220 -4.1583 * logK= -3.940000 deltaH= -6.200000 kJ Cu-(Citrate)2---- formula= Cu[C3H5O(COO)3]2---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 441.7486 g 2 species in reaction 1.000 Cu++ 2.000 Citrate--- -8.9000 -8.9000 -8.9000 -8.9000 -8.9000 -8.9000 -8.9000 -8.9000 * logK= -8.900000 deltaH= 0.000000 kJ Cu-(Glutamate)2-- formula= Cu(C5H7NO4)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 353.7752 g 2 species in reaction 1.000 Cu++ 2.000 Glutamate-- -16.5512 -16.1487 -15.7800 -15.3764 -15.0096 -14.6750 -14.3683 -14.0863 * logK= -15.780000 deltaH= 48.100000 kJ Cu-(Glycine)2 (aq) formula= Cu[NH2CH2COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 211.6642 g 2 species in reaction 1.000 Cu++ 2.000 Glycine- -16.5706 -16.1163 -15.7000 -15.2443 -14.8303 -14.4525 -14.1064 -13.7880 * logK= -15.700000 deltaH= 54.300000 kJ Cu-(Glycine)2- formula= Cu[NH2CH2COO]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 211.6642 g 2 species in reaction 2.000 Glycine- 1.000 Cu+ -10.3000 -10.3000 -10.3000 -10.3000 -10.3000 -10.3000 -10.3000 -10.3000 * logK= -10.300000 deltaH= 0.000000 kJ Cu-(iButyrate)2 (aq) formula= Cu[(CH3)2CHCOO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 237.7422 g 2 species in reaction 1.000 Cu++ 2.000 iButyrate- -3.3600 -3.3600 -3.3600 -3.3600 -3.3600 -3.3600 -3.3600 -3.3600 * logK= -3.360000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cu-(Lactate)2 (aq) formula= Cu[CH3CH(OH)COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 241.6874 g 2 species in reaction 1.000 Cu++ 2.000 Lactate- -4.8336 -4.8369 -4.8400 -4.8434 -4.8464 -4.8492 -4.8517 -4.8541 * logK= -4.840000 deltaH= -0.400000 kJ Cu-(Lactate)3- formula= Cu[CH3CH(OH)COO]3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 330.7581 g 2 species in reaction 1.000 Cu++ 3.000 Lactate- -5.3164 -5.3131 -5.3100 -5.3066 -5.3036 -5.3008 -5.2983 -5.2959 * logK= -5.310000 deltaH= 0.400000 kJ Cu-(Malonate)2-- formula= Cu[CH2(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 267.6388 g 2 species in reaction 1.000 Cu++ 2.000 Malonate-- -8.5798 -8.6217 -8.6600 -8.7020 -8.7401 -8.7749 -8.8067 -8.8361 * logK= -8.660000 deltaH= -5.000000 kJ Cu-(Oxalate)2-- formula= Cu[(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 239.5852 g 2 species in reaction 1.000 Cu++ 2.000 Oxalate-- -10.3358 -10.2806 -10.2300 -10.1746 -10.1243 -10.0784 -10.0363 -9.9976 * logK= -10.230000 deltaH= 6.600000 kJ Cu-(Phthalate)2-- formula= Cu[C6H4(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 391.7804 g 2 species in reaction 1.000 Cu++ 2.000 Phthalate-- -5.0595 -5.1850 -5.3000 -5.4259 -5.5402 -5.6446 -5.7402 -5.8282 * logK= -5.300000 deltaH= -15.000000 kJ Cu-(Propionate)2 (aq) formula= Cu(CH3CH2COO)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 209.6886 g 2 species in reaction 1.000 Cu++ 2.000 Propionate- -3.5000 -3.5000 -3.5000 -3.5000 -3.5000 -3.5000 -3.5000 -3.5000 * logK= -3.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cu-(Sal)2-- formula= Cu(OC6H4COO)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 335.7596 g 2 species in reaction 1.000 Cu++ 2.000 Sal-- -19.6200 -19.6200 -19.6200 -19.6200 -19.6200 -19.6200 -19.6200 -19.6200 * logK= -19.620000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cu-(Tartrate)2-- formula= Cu(C4H4O6)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 359.6900 g 2 species in reaction 1.000 Cu++ 2.000 Tartrate-- -5.2000 -5.2000 -5.2000 -5.2000 -5.2000 -5.2000 -5.2000 -5.2000 * logK= -5.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cu-Acetate+ formula= Cu(CH3COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 122.5905 g 2 species in reaction 1.000 Cu++ 1.000 Acetate- -2.0962 -2.1556 -2.2100 -2.2696 -2.3237 -2.3731 -2.4184 -2.4600 * logK= -2.210000 deltaH= -7.100000 kJ Cu-Benzoate+ formula= Cu(C6H5COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 184.6613 g 2 species in reaction 1.000 Cu++ 1.000 Benzoate- -2.0300 -2.0300 -2.0300 -2.0300 -2.0300 -2.0300 -2.0300 -2.0300 * logK= -2.030000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cu-Butyrate+ formula= Cu[CH3CH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 150.6441 g 2 species in reaction 1.000 Cu++ 1.000 Butyrate- -2.1400 -2.1400 -2.1400 -2.1400 -2.1400 -2.1400 -2.1400 -2.1400 * logK= -2.140000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cu-Citrate- formula= Cu[C3H5O(COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 252.6473 g 2 species in reaction 1.000 Cu++ 1.000 Citrate--- -7.5700 -7.5700 -7.5700 -7.5700 -7.5700 -7.5700 -7.5700 -7.5700 * logK= -7.570000 deltaH= 0.000000 kJ Cu-DTPA--- formula= Cu(C14H18N3O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 451.8563 g 2 species in reaction 1.000 Cu++ 1.000 DTPA----- -24.2479 -23.7793 -23.3500 -22.8801 -22.4531 -22.0635 -21.7065 -21.3782 * logK= -23.350000 deltaH= 56.000000 kJ Cu-Formate+ formula= Cu[HCOO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 108.5637 g 2 species in reaction 1.000 Cu++ 1.000 Formate- -2.0000 -2.0000 -2.0000 -2.0000 -2.0000 -2.0000 -2.0000 -2.0000 * logK= -2.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cu-Glutamate (aq) formula= Cu(C5H7NO4) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 208.6606 g 2 species in reaction 1.000 Cu++ 1.000 Glutamate-- -9.5107 -9.3433 -9.1900 -9.0222 -8.8697 -8.7305 -8.6030 -8.4858 * logK= -9.190000 deltaH= 20.000000 kJ Cu-Glutarate (aq) formula= Cu[C3H6(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 193.6460 g 2 species in reaction 1.000 Cu++ 1.000 Glutarate-- -3.0797 -3.1633 -3.2400 -3.3239 -3.4002 -3.4697 -3.5335 -3.5921 * logK= -3.240000 deltaH= -10.000000 kJ Cu-Glycine+ formula= Cu[NH2CH2COO]- charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 137.6051 g 2 species in reaction 1.000 Cu++ 1.000 Glycine- -8.9608 -8.7517 -8.5600 -8.3502 -8.1596 -7.9857 -7.8263 -7.6797 * logK= -8.560000 deltaH= 25.000000 kJ Cu-HEDTA- formula= Cu(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 338.7837 g 2 species in reaction 1.000 Cu++ 1.000 HEDTA--- -19.3153 -18.9890 -18.6900 -18.3627 -18.0654 -17.7940 -17.5454 -17.3168 * logK= -18.690000 deltaH= 39.000000 kJ Cu-iButyrate+ formula= Cu[(CH3)2CHCOO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 150.6441 g 2 species in reaction 1.000 Cu++ 1.000 iButyrate- -2.1700 -2.1700 -2.1700 -2.1700 -2.1700 -2.1700 -2.1700 -2.1700 * logK= -2.170000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cu-iValerate+ formula= Cu[(CH3)2CHCH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 164.6709 g 2 species in reaction 1.000 Cu++ 1.000 iValerate- -2.0800 -2.0800 -2.0800 -2.0800 -2.0800 -2.0800 -2.0800 -2.0800 * logK= -2.080000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cu-Lactate+ formula= Cu[CH3CH(OH)COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 152.6167 g 2 species in reaction 1.000 Cu++ 1.000 Lactate- -3.0072 -3.0139 -3.0200 -3.0267 -3.0328 -3.0384 -3.0435 -3.0482 * logK= -3.020000 deltaH= -0.800000 kJ Cu-Malate (aq) formula= Cu(C4H4O5) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 195.6186 g 2 species in reaction 1.000 Cu++ 1.000 Malate-- -3.7924 -4.1774 -4.5300 -4.9160 -5.2667 -5.5868 -5.8800 -6.1497 * logK= -4.530000 deltaH= -46.000000 kJ Cu-Malonate (aq) formula= Cu[CH2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 165.5924 g 2 species in reaction 1.000 Cu++ 1.000 Malonate-- -5.6076 -5.7080 -5.8000 -5.9007 -5.9922 -6.0757 -6.1522 -6.2225 * logK= -5.800000 deltaH= -12.000000 kJ Cu-Oxalate (aq) formula= Cu[(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 151.5656 g 2 species in reaction 1.000 Cu++ 1.000 Oxalate-- -5.7264 -5.7231 -5.7200 -5.7166 -5.7136 -5.7108 -5.7083 -5.7059 * logK= -5.720000 deltaH= 0.400000 kJ Cu-Phthalate (aq) formula= Cu[C6H4(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 227.6632 g 2 species in reaction 1.000 Cu++ 1.000 Phthalate-- -3.8869 -3.9564 -4.0200 -4.0896 -4.1529 -4.2107 -4.2636 -4.3123 * logK= -4.020000 deltaH= -8.300000 kJ Cu-Propionate+ formula= Cu(CH3CH2COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 136.6173 g 2 species in reaction 1.000 Cu++ 1.000 Propionate- -2.1543 -2.1886 -2.2200 -2.2544 -2.2857 -2.3142 -2.3403 -2.3644 * logK= -2.220000 deltaH= -4.100000 kJ Cu-Sal (aq) formula= Cu(OC6H4COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 199.6528 g 2 species in reaction 1.000 Cu++ 1.000 Sal-- -11.6498 -11.4934 -11.3500 -11.1931 -11.0505 -10.9204 -10.8012 -10.6916 * logK= -11.350000 deltaH= 18.700000 kJ Cu-Succinate (aq) formula= Cu[(CH2)2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 179.6192 g 2 species in reaction 1.000 Cu++ 1.000 Succinate-- -3.0954 -3.2543 -3.4000 -3.5594 -3.7043 -3.8365 -3.9576 -4.0690 * logK= -3.400000 deltaH= -19.000000 kJ Cu-Tartrate (aq) formula= Cu(C4H4O6) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 211.6180 g 2 species in reaction 1.000 Cu++ 1.000 Tartrate-- -3.9700 -3.9700 -3.9700 -3.9700 -3.9700 -3.9700 -3.9700 -3.9700 * logK= -3.970000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cu-Valerate+ formula= Cu[CH3(CH2)3COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 164.6709 g 2 species in reaction 1.000 Cu++ 1.000 Valerate- -2.1200 -2.1200 -2.1200 -2.1200 -2.1200 -2.1200 -2.1200 -2.1200 * logK= -2.120000 deltaH= 0.000000 kJ Cu2(OH)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 161.1066 g 3 species in reaction 2.000 Cu++ -2.000 H+ 2.000 H2O 11.5356 10.9215 10.3589 9.7431 9.1836 8.6730 8.2052 7.7750 * logK= 10.494000 deltaH= -76.620000 kJ * analytic data = 2.497 0 -3833 0 0 0 0 Cu2-(Citrate)2-- formula= Cu2[C3H5O(COO)3]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 505.2946 g 2 species in reaction 2.000 Cu++ 2.000 Citrate--- -16.2291 -16.5792 -16.9000 -17.2511 -17.5701 -17.8612 -18.1280 -18.3732 * logK= -16.900000 deltaH= -41.840000 kJ Cu2-(Malate)2 (aq) formula= Cu2(C4H4O5)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 391.2372 g 2 species in reaction 2.000 Cu++ 2.000 Malate-- -10.1300 -10.1300 -10.1300 -10.1300 -10.1300 -10.1300 -10.1300 -10.1300 * logK= -10.130000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cu2-DTPA- formula= Cu2(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 515.4023 g 2 species in reaction 2.000 Cu++ 1.000 DTPA----- -31.4300 -31.4300 -31.4300 -31.4300 -31.4300 -31.4300 -31.4300 -31.4300 * logK= -31.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cu2OH+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 144.0993 g 3 species in reaction 2.000 Cu++ -1.000 H+ 1.000 H2O 7.1429 6.9170 6.7100 6.4834 6.2776 6.0897 5.9176 5.7593 * logK= 6.710000 deltaH= -27.000000 kJ Cu2S3-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 223.2840 g 3 species in reaction 2.000 Cu++ -3.000 H+ 3.000 HS- 2.4500 2.4500 2.4500 2.4500 2.4500 2.4500 2.4500 2.4500 * logK= 2.450000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cu3(OH)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 258.6672 g 3 species in reaction 3.000 Cu++ -4.000 H+ 4.000 H2O 22.4915 21.6025 20.7880 19.8965 19.0865 18.3473 17.6700 17.0472 * logK= 20.788000 deltaH= -106.240000 kJ Cu[2-Picoline]+ formula= Cu(C6H7N)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 156.6740 g 2 species in reaction 1.000 Cu+ 1.000 2Picol -5.4000 -5.4000 -5.4000 -5.4000 -5.4000 -5.4000 -5.4000 -5.4000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -5.400000 deltaH= 0.000000 kJ Cu[2-Picoline]++ formula= Cu(C6H7N)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 156.6740 g 2 species in reaction 1.000 Cu++ 1.000 2Picol -1.3000 -1.3000 -1.3000 -1.3000 -1.3000 -1.3000 -1.3000 -1.3000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -1.300000 deltaH= 0.000000 kJ Cu[2-Picoline]2+ formula= Cu(C6H7N)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 249.8020 g 2 species in reaction 1.000 Cu+ 2.000 2Picol -7.6500 -7.6500 -7.6500 -7.6500 -7.6500 -7.6500 -7.6500 -7.6500 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -7.650000 deltaH= 0.000000 kJ Cu[2-Picoline]2++ formula= Cu(C6H7N)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 249.8020 g 2 species in reaction 1.000 Cu++ 2.000 2Picol -2.8000 -2.8000 -2.8000 -2.8000 -2.8000 -2.8000 -2.8000 -2.8000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.800000 deltaH= 0.000000 kJ Cu[2-Picoline]3+ formula= Cu(C6H7N)3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 342.9300 g 2 species in reaction 1.000 Cu+ 3.000 2Picol -8.5000 -8.5000 -8.5000 -8.5000 -8.5000 -8.5000 -8.5000 -8.5000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -8.500000 deltaH= 0.000000 kJ Cu[3-Picoline]+ formula= Cu(C6H7N)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 156.6740 g 2 species in reaction 1.000 3Picol 1.000 Cu+ -5.6000 -5.6000 -5.6000 -5.6000 -5.6000 -5.6000 -5.6000 -5.6000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -5.600000 deltaH= 0.000000 kJ Cu[3-Picoline]++ formula= Cu(C6H7N)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 156.6740 g 2 species in reaction 1.000 Cu++ 1.000 3Picol -2.7700 -2.7700 -2.7700 -2.7700 -2.7700 -2.7700 -2.7700 -2.7700 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.770000 deltaH= 0.000000 kJ Cu[3-Picoline]2+ formula= Cu(C6H7N)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 249.8020 g 2 species in reaction 2.000 3Picol 1.000 Cu+ -7.7800 -7.7800 -7.7800 -7.7800 -7.7800 -7.7800 -7.7800 -7.7800 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -7.780000 deltaH= 0.000000 kJ Cu[3-Picoline]2++ formula= Cu(C6H7N)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 249.8020 g 2 species in reaction 1.000 Cu++ 2.000 3Picol -4.8000 -4.8000 -4.8000 -4.8000 -4.8000 -4.8000 -4.8000 -4.8000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -4.800000 deltaH= 0.000000 kJ Cu[3-Picoline]3+ formula= Cu(C6H7N)3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 342.9300 g 2 species in reaction 3.000 3Picol 1.000 Cu+ -8.6000 -8.6000 -8.6000 -8.6000 -8.6000 -8.6000 -8.6000 -8.6000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -8.600000 deltaH= 0.000000 kJ Cu[3-Picoline]3++ formula= Cu(C6H7N)3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 342.9300 g 2 species in reaction 1.000 Cu++ 3.000 3Picol -6.3000 -6.3000 -6.3000 -6.3000 -6.3000 -6.3000 -6.3000 -6.3000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -6.300000 deltaH= 0.000000 kJ Cu[3-Picoline]4+ formula= Cu(C6H7N)4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 436.0580 g 2 species in reaction 4.000 3Picol 1.000 Cu+ -9.0000 -9.0000 -9.0000 -9.0000 -9.0000 -9.0000 -9.0000 -9.0000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -9.000000 deltaH= 0.000000 kJ Cu[3-Picoline]4++ formula= Cu(C6H7N)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 436.0580 g 2 species in reaction 1.000 Cu++ 4.000 3Picol -7.2000 -7.2000 -7.2000 -7.2000 -7.2000 -7.2000 -7.2000 -7.2000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -7.200000 deltaH= 0.000000 kJ Cu[4-Picoline]+ formula= Cu(C6H7N)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 156.6740 g 2 species in reaction 1.000 4Picol 1.000 Cu+ -5.6500 -5.6500 -5.6500 -5.6500 -5.6500 -5.6500 -5.6500 -5.6500 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -5.650000 deltaH= 0.000000 kJ Cu[4-Picoline]++ formula= Cu(C6H7N)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 156.6740 g 2 species in reaction 1.000 Cu++ 1.000 4Picol -2.8800 -2.8800 -2.8800 -2.8800 -2.8800 -2.8800 -2.8800 -2.8800 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.880000 deltaH= 0.000000 kJ Cu[4-Picoline]2+ formula= Cu(C6H7N)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 249.8020 g 2 species in reaction 2.000 4Picol 1.000 Cu+ -8.2000 -8.2000 -8.2000 -8.2000 -8.2000 -8.2000 -8.2000 -8.2000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -8.200000 deltaH= 0.000000 kJ Cu[4-Picoline]2++ formula= Cu(C6H7N)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 249.8020 g 2 species in reaction 1.000 Cu++ 2.000 4Picol -5.1600 -5.1600 -5.1600 -5.1600 -5.1600 -5.1600 -5.1600 -5.1600 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -5.160000 deltaH= 0.000000 kJ Cu[4-Picoline]3+ formula= Cu(C6H7N)3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 342.9300 g 2 species in reaction 3.000 4Picol 1.000 Cu+ -8.8000 -8.8000 -8.8000 -8.8000 -8.8000 -8.8000 -8.8000 -8.8000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -8.800000 deltaH= 0.000000 kJ Cu[4-Picoline]3++ formula= Cu(C6H7N)3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 342.9300 g 2 species in reaction 1.000 Cu++ 3.000 4Picol -6.7700 -6.7700 -6.7700 -6.7700 -6.7700 -6.7700 -6.7700 -6.7700 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -6.770000 deltaH= 0.000000 kJ Cu[4-Picoline]4+ formula= Cu(C6H7N)4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 436.0580 g 2 species in reaction 4.000 4Picol 1.000 Cu+ -9.2000 -9.2000 -9.2000 -9.2000 -9.2000 -9.2000 -9.2000 -9.2000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -9.200000 deltaH= 0.000000 kJ Cu[4-Picoline]4++ formula= Cu(C6H7N)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 436.0580 g 2 species in reaction 1.000 Cu++ 4.000 4Picol -8.0800 -8.0800 -8.0800 -8.0800 -8.0800 -8.0800 -8.0800 -8.0800 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -8.080000 deltaH= 0.000000 kJ Cu[4-Picoline]5++ formula= Cu(C6H7N)5++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 529.1860 g 2 species in reaction 1.000 Cu++ 5.000 4Picol -8.3000 -8.3000 -8.3000 -8.3000 -8.3000 -8.3000 -8.3000 -8.3000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -8.300000 deltaH= 0.000000 kJ Cu[Ethylenediamine]++ formula= Cu[C2H4(NH2)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 123.6446 g 2 species in reaction 1.000 Cu++ 1.000 EtDiAm -11.3450 -10.9040 -10.5000 -10.0578 -9.6560 -9.2893 -8.9533 -8.6444 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -10.500000 deltaH= 52.700000 kJ Cu[Ethylenediamine]2++ formula= Cu[C2H4(NH2)2]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 183.7432 g 2 species in reaction 1.000 Cu++ 2.000 EtDiAm -21.2475 -20.3773 -19.5800 -18.7073 -17.9143 -17.1907 -16.5277 -15.9180 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -19.580000 deltaH= 104.000000 kJ Cu[Methylamine]++ formula= Cu(CH3NH2)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 94.6032 g 2 species in reaction 1.000 Cu++ 1.000 MeAm -4.1100 -4.1100 -4.1100 -4.1100 -4.1100 -4.1100 -4.1100 -4.1100 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -4.110000 deltaH= 0.000000 kJ Cu[Methylamine]2++ formula= Cu(CH3NH2)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 125.6604 g 2 species in reaction 1.000 Cu++ 2.000 MeAm -7.5100 -7.5100 -7.5100 -7.5100 -7.5100 -7.5100 -7.5100 -7.5100 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -7.510000 deltaH= 0.000000 kJ Cu[Methylamine]3++ formula= Cu(CH3NH2)3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 156.7176 g 2 species in reaction 1.000 Cu++ 3.000 MeAm -10.2100 -10.2100 -10.2100 -10.2100 -10.2100 -10.2100 -10.2100 -10.2100 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -10.210000 deltaH= 0.000000 kJ Cu[Methylamine]4++ formula= Cu(CH3NH2)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 187.7748 g 2 species in reaction 1.000 Cu++ 4.000 MeAm -12.0800 -12.0800 -12.0800 -12.0800 -12.0800 -12.0800 -12.0800 -12.0800 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -12.080000 deltaH= 0.000000 kJ Cu[Phenylacetate]+ formula= Cu(C8H7O2)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 198.6881 g 2 species in reaction 1.000 Cu++ 1.000 PhAcO- -1.9700 -1.9700 -1.9700 -1.9700 -1.9700 -1.9700 -1.9700 -1.9700 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -1.970000 deltaH= 0.000000 kJ CuBr (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 143.4500 g 2 species in reaction 1.000 Br- 1.000 Cu+ -3.5300 -3.5300 -3.5300 -3.5300 -3.5300 -3.5300 -3.5300 -3.5300 * logK= -3.530000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuBr+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 143.4500 g 2 species in reaction 1.000 Cu++ 1.000 Br- .2324 .1320 .0400 -.0607 -.1522 -.2357 -.3122 -.3825 * logK= 0.040000 deltaH= -12.000000 kJ CuBr2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 223.3540 g 2 species in reaction 2.000 Br- 1.000 Cu+ -5.8600 -5.8600 -5.8600 -5.8600 -5.8600 -5.8600 -5.8600 -5.8600 * logK= -5.860000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuBr3-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 303.2580 g 2 species in reaction 3.000 Br- 1.000 Cu+ -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 * logK= -6.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuCl (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 98.9990 g 2 species in reaction 1.000 Cl- 1.000 Cu+ -3.1000 -3.1000 -3.1000 -3.1000 -3.1000 -3.1000 -3.1000 -3.1000 * logK= -3.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuCl+ charge= 1 ion size= 4.0 A b= 0.0000 mole wt.= 98.9990 g 2 species in reaction 1.000 Cu++ 1.000 Cl- -.1669 -.2364 -.3000 -.3696 -.4329 -.4907 -.5436 -.5923 * logK= -0.300000 deltaH= -8.300000 kJ CuCl2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 134.4520 g 2 species in reaction 1.000 Cu++ 2.000 Cl- .9684 .5987 .2600 -.1108 -.4476 -.7550 -1.0367 -1.2957 * logK= 0.260000 deltaH= -44.183000 kJ CuCl2- charge= -1 ion size= 4.0 A b= 0.0000 mole wt.= 134.4520 g 2 species in reaction 2.000 Cl- 1.000 Cu+ -5.4482 -5.4335 -5.4200 -5.4053 -5.3919 -5.3796 -5.3684 -5.3581 * logK= -5.420000 deltaH= 1.757300 kJ CuCl3- charge= -1 ion size= 4.0 A b= 0.0000 mole wt.= 169.9050 g 2 species in reaction 1.000 Cu++ 3.000 Cl- 3.2084 2.7291 2.2900 1.8093 1.3726 .9741 .6089 .2731 * logK= 2.290000 deltaH= -57.279000 kJ CuCl3-- charge= -2 ion size= 5.0 A b= 0.0000 mole wt.= 169.9050 g 2 species in reaction 3.000 Cl- 1.000 Cu+ -5.0707 -4.9033 -4.7500 -4.5822 -4.4297 -4.2905 -4.1630 -4.0458 * logK= -4.750000 deltaH= 20.000000 kJ CuCl4-- charge= -2 ion size= 5.0 A b= 0.0000 mole wt.= 205.3580 g 2 species in reaction 1.000 Cu++ 4.000 Cl- 5.1119 4.8395 4.5900 4.3168 4.0687 3.8422 3.6347 3.4438 * logK= 4.590000 deltaH= -32.551500 kJ CuCO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 123.5552 g 2 species in reaction 1.000 Cu++ 1.000 CO3-- -6.7700 -6.7700 -6.7700 -6.7700 -6.7700 -6.7700 -6.7700 -6.7700 * logK= -6.770000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuEDTA-- formula= Cu(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 351.7594 g 2 species in reaction 1.000 Cu++ 1.000 EDTA---- -21.0191 -20.7430 -20.4900 -20.2131 -19.9615 -19.7319 -19.5215 -19.3280 * logK= -20.490000 deltaH= 33.000000 kJ CuF+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 82.5444 g 2 species in reaction 1.000 Cu++ 1.000 F- -1.4916 -1.6003 -1.7000 -1.8091 -1.9082 -1.9987 -2.0815 -2.1577 * logK= -1.700000 deltaH= -13.000000 kJ CuH-Citrate (aq) formula= CuH[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 253.6552 g 3 species in reaction 1.000 Cu++ 1.000 H+ 1.000 Citrate--- -10.8388 -10.9334 -11.0200 -11.1148 -11.2010 -11.2796 -11.3516 -11.4179 * logK= -11.020000 deltaH= -11.300000 kJ CuH-DTPA-- formula= CuH(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 452.8642 g 3 species in reaction 1.000 Cu++ 1.000 H+ 1.000 DTPA----- -28.7900 -28.7900 -28.7900 -28.7900 -28.7900 -28.7900 -28.7900 -28.7900 * logK= -28.790000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuH-Glutamate+ formula= CuH(C5H7NO4)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 209.6685 g 3 species in reaction 1.000 Cu++ 1.000 Glutamate-- 1.000 H+ -13.7290 -13.4947 -13.2800 -13.0450 -12.8316 -12.6367 -12.4582 -12.2941 * logK= -13.280000 deltaH= 28.000000 kJ CuH-HEDTA (aq) formula= CuH(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 339.7916 g 3 species in reaction 1.000 Cu++ 1.000 H+ 1.000 HEDTA--- -21.3600 -21.3600 -21.3600 -21.3600 -21.3600 -21.3600 -21.3600 -21.3600 * logK= -21.360000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuH-Malate+ formula= CuH(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 196.6265 g 3 species in reaction 1.000 Cu++ 1.000 H+ 1.000 Malate-- -6.9275 -7.2472 -7.5400 -7.8606 -8.1518 -8.4176 -8.6611 -8.8851 * logK= -7.540000 deltaH= -38.200000 kJ CuH-Malonate+ formula= CuH[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 166.6003 g 3 species in reaction 1.000 Cu++ 1.000 Malonate-- 1.000 H+ -8.1374 -8.1753 -8.2100 -8.2480 -8.2826 -8.3141 -8.3429 -8.3695 * logK= -8.210000 deltaH= -4.530000 kJ CuH-Oxalate+ formula= CuH[(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 152.5735 g 3 species in reaction 1.000 Cu++ 1.000 H+ 1.000 Oxalate-- -7.0000 -7.0000 -7.0000 -7.0000 -7.0000 -7.0000 -7.0000 -7.0000 * logK= -7.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuH-Phthalate+ formula= CuH[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 228.6711 g 3 species in reaction 1.000 Cu++ 1.000 Phthalate-- 1.000 H+ -6.9909 -7.0687 -7.1400 -7.2180 -7.2889 -7.3537 -7.4129 -7.4675 * logK= -7.140000 deltaH= -9.300000 kJ CuH-Succinate+ formula= CuH[(CH2)2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 180.6271 g 3 species in reaction 1.000 Cu++ 1.000 H+ 1.000 Succinate-- -7.8828 -7.8761 -7.8700 -7.8633 -7.8572 -7.8516 -7.8465 -7.8418 * logK= -7.870000 deltaH= 0.800000 kJ CuH-Tartrate+ formula= CuH(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 212.6259 g 3 species in reaction 1.000 Cu++ 1.000 Tartrate-- 1.000 H+ -6.2900 -6.2900 -6.2900 -6.2900 -6.2900 -6.2900 -6.2900 -6.2900 * logK= -6.290000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuH2-Citrate+ formula= CuH2[C3H5O(COO)3]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 254.6631 g 3 species in reaction 1.000 Cu++ 2.000 H+ 1.000 Citrate--- -13.2300 -13.2300 -13.2300 -13.2300 -13.2300 -13.2300 -13.2300 -13.2300 * logK= -13.230000 deltaH= 0.000000 kJ CuH2-DTPA- formula= CuH2(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 453.8721 g 3 species in reaction 1.000 Cu++ 2.000 H+ 1.000 DTPA----- -32.1800 -32.1800 -32.1800 -32.1800 -32.1800 -32.1800 -32.1800 -32.1800 * logK= -32.180000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuH2BO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 124.3700 g 3 species in reaction 1.000 Cu++ 1.000 H3BO3 -1.000 H+ 5.2600 5.2600 5.2600 5.2600 5.2600 5.2600 5.2600 5.2600 * logK= 5.260000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuH2EDTA (aq) formula= CuH2(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 353.7752 g 3 species in reaction 1.000 Cu++ 2.000 H+ 1.000 EDTA---- -26.2300 -26.2300 -26.2300 -26.2300 -26.2300 -26.2300 -26.2300 -26.2300 * logK= -26.230000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuHCO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 124.5631 g 3 species in reaction 1.000 Cu++ 1.000 H+ 1.000 CO3-- -12.1290 -12.1290 -12.1290 -12.1290 -12.1290 -12.1290 -12.1290 -12.1290 * logK= -12.129000 deltaH= 0.000000 kJ CuHEDTA- formula= CuH(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 352.7673 g 3 species in reaction 1.000 Cu++ 1.000 H+ 1.000 EDTA---- -24.6822 -24.3366 -24.0200 -23.6734 -23.3585 -23.0712 -22.8079 -22.5658 * logK= -24.020000 deltaH= 41.300000 kJ CuHNTA (aq) formula= CuH[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 252.6704 g 3 species in reaction 1.000 Cu++ 1.000 NTA--- 1.000 H+ -16.1000 -16.1000 -16.1000 -16.1000 -16.1000 -16.1000 -16.1000 -16.1000 * logK= -16.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuHPO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 159.5253 g 3 species in reaction 1.000 Cu++ 1.000 H+ 1.000 PO4--- -16.5000 -16.5000 -16.5000 -16.5000 -16.5000 -16.5000 -16.5000 -16.5000 * logK= -16.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuHSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 160.6155 g 3 species in reaction 1.000 Cu++ 1.000 H+ 1.000 SO4-- -2.3400 -2.3400 -2.3400 -2.3400 -2.3400 -2.3400 -2.3400 -2.3400 * logK= -2.340000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuI (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 190.4504 g 2 species in reaction 1.000 Cu+ 1.000 I- -6.0000 -6.0000 -6.0000 -6.0000 -6.0000 -6.0000 -6.0000 -6.0000 * logK= -6.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuI2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 317.3548 g 2 species in reaction 1.000 Cu+ 2.000 I- -8.9000 -8.9000 -8.9000 -8.9000 -8.9000 -8.9000 -8.9000 -8.9000 * logK= -8.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuNH3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 80.5764 g 3 species in reaction 1.000 Cu++ -1.000 H+ 1.000 NH4+ 5.7331 5.4653 5.2200 4.9515 4.7075 4.4848 4.2808 4.0932 * logK= 5.220000 deltaH= -32.000000 kJ CuNO2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 109.5515 g 2 species in reaction 1.000 Cu++ 1.000 NO2- -2.0200 -2.0200 -2.0200 -2.0200 -2.0200 -2.0200 -2.0200 -2.0200 * logK= -2.020000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuNO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 125.5509 g 2 species in reaction 1.000 Cu++ 1.000 NO3- -.5657 -.5314 -.5000 -.4656 -.4343 -.4058 -.3797 -.3556 * logK= -0.500000 deltaH= 4.100000 kJ CuNTA- formula= Cu[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 251.6625 g 2 species in reaction 1.000 Cu++ 1.000 NTA--- -14.4067 -14.3406 -14.2800 -14.2137 -14.1535 -14.0985 -14.0481 -14.0018 * logK= -14.280000 deltaH= 7.900000 kJ CuOH+ charge= 1 ion size= 4.0 A b= 0.0000 mole wt.= 80.5533 g 3 species in reaction 1.000 Cu++ -1.000 H+ 1.000 H2O 8.0712 7.7715 7.4970 7.1965 6.9235 6.6743 6.4460 6.2361 * logK= 7.497000 deltaH= -35.810000 kJ CuOHEDTA--- formula= CuOH(C10H12N2O8)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 368.7667 g 4 species in reaction 1.000 Cu++ -1.000 H+ 1.000 EDTA---- 1.000 H2O -8.8148 -8.6208 -8.4430 -8.2484 -8.0716 -7.9102 -7.7624 -7.6265 * logK= -8.443000 deltaH= 23.190000 kJ CuOHNTA-- formula= CuOH[N(CH2COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 268.6698 g 4 species in reaction 1.000 Cu++ 1.000 NTA--- -1.000 H+ 1.000 H2O -4.4109 -4.5357 -4.6500 -4.7751 -4.8888 -4.9925 -5.0876 -5.1750 * logK= -4.650000 deltaH= -14.910000 kJ CuS(aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 95.6100 g 3 species in reaction 1.000 Cu++ -1.000 H+ 1.000 HS- 2.8000 2.8000 2.8000 2.8000 2.8000 2.8000 2.8000 2.8000 * logK= 2.800000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuS4S5--- charge= -3 ion size= 25.0 A b= 0.0000 mole wt.= 352.1220 g 4 species in reaction -2.000 H+ 1.000 Cu+ 2.000 HS- 7.000 S -2.6600 -2.6600 -2.6600 -2.6600 -2.6600 -2.6600 -2.6600 -2.6600 * logK= -2.660000 deltaH= 0.000000 kJ CuSCN+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 121.6277 g 2 species in reaction 1.000 Cu++ 1.000 SCN- -2.5224 -2.4220 -2.3300 -2.2293 -2.1378 -2.0543 -1.9778 -1.9075 * logK= -2.330000 deltaH= 12.000000 kJ CuSO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 143.6082 g 2 species in reaction 1.000 Cu++ 1.000 SO3-- -5.3900 -5.3900 -5.3900 -5.3900 -5.3900 -5.3900 -5.3900 -5.3900 * logK= -5.390000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuSO3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 143.6082 g 2 species in reaction 1.000 Cu+ 1.000 SO3-- -8.2600 -8.2600 -8.2600 -8.2600 -8.2600 -8.2600 -8.2600 -8.2600 * logK= -8.260000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuSO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 159.6076 g 2 species in reaction 1.000 Cu++ 1.000 SO4-- -2.2205 -2.2933 -2.3600 -2.4330 -2.4993 -2.5599 -2.6153 -2.6663 * logK= -2.360000 deltaH= -8.700000 kJ Dy(NTA)2--- formula= Dy[N(CH2COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 538.7330 g 2 species in reaction 1.000 Dy+++ 2.000 NTA--- -23.2367 -23.0610 -22.9000 -22.7238 -22.5637 -22.4176 -22.2837 -22.1606 * logK= -22.900000 deltaH= 21.000000 kJ Dy(SO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 354.6232 g 2 species in reaction 1.000 Dy+++ 2.000 SO4-- -4.1426 -4.4857 -4.8000 -5.1441 -5.4567 -5.7419 -6.0033 -6.2437 * logK= -4.800000 deltaH= -41.000000 kJ Dy-(Acetate)2+ formula= Dy(CH3COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 280.5890 g 2 species in reaction 1.000 Dy+++ 2.000 Acetate- -3.9414 -4.0920 -4.2300 -4.3810 -4.5183 -4.6435 -4.7583 -4.8638 * logK= -4.230000 deltaH= -18.000000 kJ Dy-(Acetate)3 (aq) formula= Dy(CH3COO)3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 339.6335 g 2 species in reaction 1.000 Dy+++ 3.000 Acetate- -5.3074 -5.4497 -5.5800 -5.7227 -5.8523 -5.9706 -6.0789 -6.1786 * logK= -5.580000 deltaH= -17.000000 kJ Dy-(Benzoate)2+ formula= Dy(C6H5COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 404.7306 g 2 species in reaction 1.000 Dy+++ 2.000 Benzoate- -4.7200 -4.7200 -4.7200 -4.7200 -4.7200 -4.7200 -4.7200 -4.7200 * logK= -4.720000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Dy-(Formate)2+ formula= Dy[HCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 252.5354 g 2 species in reaction 1.000 Dy+++ 2.000 Formate- -2.6000 -2.6000 -2.6000 -2.6000 -2.6000 -2.6000 -2.6000 -2.6000 * logK= -2.600000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Dy-(iButyrate)2+ formula= Dy[(CH3)2CHCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 336.6962 g 2 species in reaction 1.000 Dy+++ 2.000 iButyrate- -3.4610 -3.6953 -3.9100 -4.1450 -4.3584 -4.5533 -4.7318 -4.8959 * logK= -3.910000 deltaH= -28.000000 kJ Dy-(Lactate)2+ formula= Dy[CH3CH(OH)COO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 340.6414 g 2 species in reaction 1.000 Dy+++ 2.000 Lactate- -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 * logK= -6.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Dy-(Lactate)3 (aq) formula= Dy[CH3CH(OH)COO]3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 429.7121 g 2 species in reaction 1.000 Dy+++ 3.000 Lactate- -7.9700 -7.9700 -7.9700 -7.9700 -7.9700 -7.9700 -7.9700 -7.9700 * logK= -7.970000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Dy-(Malate)2- formula= Dy(C4H4O5)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 426.6452 g 2 species in reaction 1.000 Dy+++ 2.000 Malate-- -9.8200 -9.8200 -9.8200 -9.8200 -9.8200 -9.8200 -9.8200 -9.8200 * logK= -9.820000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Dy-(Malonate)2- formula= Dy[CH2(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 366.5928 g 2 species in reaction 1.000 Dy+++ 2.000 Malonate-- -8.5373 -8.7213 -8.8900 -9.0746 -9.2424 -9.3954 -9.5357 -9.6646 * logK= -8.890000 deltaH= -22.000000 kJ Dy-(Malonate)3--- formula= Dy[CH2(COO)2]3--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 468.6392 g 2 species in reaction 1.000 Dy+++ 3.000 Malonate-- -7.2793 -7.4467 -7.6000 -7.7678 -7.9203 -8.0595 -8.1870 -8.3042 * logK= -7.600000 deltaH= -20.000000 kJ Dy-(Propionate)2+ formula= Dy(CH3CH2COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 308.6426 g 2 species in reaction 1.000 Dy+++ 2.000 Propionate- -4.2414 -4.3920 -4.5300 -4.6810 -4.8183 -4.9435 -5.0583 -5.1638 * logK= -4.530000 deltaH= -18.000000 kJ Dy-Acetate++ formula= Dy(CH3COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 221.5445 g 2 species in reaction 1.000 Dy+++ 1.000 Acetate- -2.2976 -2.3980 -2.4900 -2.5907 -2.6822 -2.7657 -2.8422 -2.9125 * logK= -2.490000 deltaH= -12.000000 kJ Dy-Benzoate++ formula= Dy(C6H5COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 283.6153 g 2 species in reaction 1.000 Dy+++ 1.000 Benzoate- -2.4497 -2.5333 -2.6100 -2.6939 -2.7702 -2.8397 -2.9035 -2.9621 * logK= -2.610000 deltaH= -10.000000 kJ Dy-Citrate (aq) formula= Dy[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 351.6013 g 2 species in reaction 1.000 Dy+++ 1.000 Citrate--- -9.3400 -9.3400 -9.3400 -9.3400 -9.3400 -9.3400 -9.3400 -9.3400 * logK= -9.340000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Dy-DTPA-- formula= Dy(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 550.8103 g 2 species in reaction 1.000 Dy+++ 1.000 DTPA----- -26.5471 -26.2877 -26.0500 -25.7899 -25.5535 -25.3378 -25.1402 -24.9585 * logK= -26.050000 deltaH= 31.000000 kJ Dy-Formate++ formula= Dy[HCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 207.5177 g 2 species in reaction 1.000 Dy+++ 1.000 Formate- -1.8600 -1.8600 -1.8600 -1.8600 -1.8600 -1.8600 -1.8600 -1.8600 * logK= -1.860000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Dy-Glutarate+ formula= Dy[C3H6(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 292.6000 g 2 species in reaction 1.000 Dy+++ 1.000 Glutarate-- -4.1474 -4.2897 -4.4200 -4.5627 -4.6923 -4.8106 -4.9189 -5.0186 * logK= -4.420000 deltaH= -17.000000 kJ Dy-Glycine++ formula= Dy[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 236.5591 g 2 species in reaction 1.000 Dy+++ 1.000 Glycine- -4.2500 -4.2500 -4.2500 -4.2500 -4.2500 -4.2500 -4.2500 -4.2500 * logK= -4.250000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Dy-HEDTA (aq) formula= Dy(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 437.7377 g 2 species in reaction 1.000 Dy+++ 1.000 HEDTA--- -17.5207 -17.3533 -17.2000 -17.0322 -16.8797 -16.7405 -16.6130 -16.4958 * logK= -17.200000 deltaH= 20.000000 kJ Dy-iButyrate++ formula= Dy[(CH3)2CHCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 249.5981 g 2 species in reaction 1.000 Dy+++ 1.000 iButyrate- -2.2293 -2.3967 -2.5500 -2.7178 -2.8703 -3.0095 -3.1370 -3.2542 * logK= -2.550000 deltaH= -20.000000 kJ Dy-iPhthalate+ formula= Dy[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 326.6172 g 2 species in reaction 1.000 Dy+++ 1.000 iPhthalate-- -3.7676 -3.8680 -3.9600 -4.0607 -4.1522 -4.2357 -4.3122 -4.3825 * logK= -3.960000 deltaH= -12.000000 kJ Dy-Lactate++ formula= Dy[CH3CH(OH)COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 251.5707 g 2 species in reaction 1.000 Dy+++ 1.000 Lactate- -3.7275 -3.6505 -3.5800 -3.5028 -3.4327 -3.3686 -3.3100 -3.2561 * logK= -3.580000 deltaH= 9.200000 kJ Dy-Malate+ formula= Dy(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 294.5726 g 2 species in reaction 1.000 Dy+++ 1.000 Malate-- -6.0700 -6.0700 -6.0700 -6.0700 -6.0700 -6.0700 -6.0700 -6.0700 * logK= -6.070000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Dy-Malonate+ formula= Dy[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 264.5464 g 2 species in reaction 1.000 Dy+++ 1.000 Malonate-- -5.5676 -5.6680 -5.7600 -5.8607 -5.9522 -6.0357 -6.1122 -6.1825 * logK= -5.760000 deltaH= -12.000000 kJ Dy-Phthalate+ formula= Dy[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 326.6172 g 2 species in reaction 1.000 Dy+++ 1.000 Phthalate-- -4.7600 -4.7600 -4.7600 -4.7600 -4.7600 -4.7600 -4.7600 -4.7600 * logK= -4.760000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Dy-Propionate++ formula= Dy(CH3CH2COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 235.5713 g 2 species in reaction 1.000 Dy+++ 1.000 Propionate- -2.3395 -2.4650 -2.5800 -2.7059 -2.8202 -2.9246 -3.0202 -3.1082 * logK= -2.580000 deltaH= -15.000000 kJ Dy-Succinate+ formula= Dy[(CH2)2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 278.5732 g 2 species in reaction 1.000 Dy+++ 1.000 Succinate-- -4.3635 -4.4973 -4.6200 -4.7543 -4.8763 -4.9876 -5.0896 -5.1834 * logK= -4.620000 deltaH= -16.000000 kJ Dy-Tartrate+ formula= Dy(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 310.5720 g 2 species in reaction 1.000 Dy+++ 1.000 Tartrate-- -5.4200 -5.4200 -5.4200 -5.4200 -5.4200 -5.4200 -5.4200 -5.4200 * logK= -5.420000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C DyEDTA- formula= Dy(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 450.7134 g 2 species in reaction 1.000 Dy+++ 1.000 EDTA---- -20.9402 -20.8983 -20.8600 -20.8180 -20.7799 -20.7451 -20.7133 -20.6839 * logK= -20.860000 deltaH= 5.000000 kJ DyEGTA- formula= Dy(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 538.8194 g 2 species in reaction 1.000 Dy+++ 1.000 EGTA---- -20.2600 -20.2600 -20.2600 -20.2600 -20.2600 -20.2600 -20.2600 -20.2600 * logK= -20.260000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C DyF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 181.4984 g 2 species in reaction 1.000 Dy+++ 1.000 F- -4.3325 -4.4095 -4.4800 -4.5572 -4.6273 -4.6914 -4.7500 -4.8039 * logK= -4.480000 deltaH= -9.200000 kJ DyH-(Malonate)2 (aq) formula= DyH2[CH2(COO)2]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 367.6007 g 3 species in reaction 1.000 Dy+++ 2.000 Malonate-- 1.000 H+ -10.4630 -10.6128 -10.7500 -10.9002 -11.0367 -11.1612 -11.2753 -11.3803 * logK= -10.750000 deltaH= -17.900000 kJ DyH-DTPA- formula= DyH(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 551.8182 g 3 species in reaction 1.000 Dy+++ 1.000 H+ 1.000 DTPA----- -28.6700 -28.6700 -28.6700 -28.6700 -28.6700 -28.6700 -28.6700 -28.6700 * logK= -28.670000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C DyH-Malonate++ formula= DyH[CH2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 265.5543 g 3 species in reaction 1.000 Dy+++ 1.000 Malonate-- 1.000 H+ -7.3715 -7.4647 -7.5500 -7.6434 -7.7283 -7.8057 -7.8767 -7.9419 * logK= -7.550000 deltaH= -11.130000 kJ DyH-Sal++ formula= DyH(OC6H4COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 299.6147 g 3 species in reaction 1.000 Dy+++ 1.000 H+ 1.000 Sal-- -16.5643 -16.2907 -16.0400 -15.7656 -15.5163 -15.2888 -15.0803 -14.8886 * logK= -16.040000 deltaH= 32.700000 kJ DyH-Succinate++ formula= DyH[(CH2)2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 279.5811 g 3 species in reaction 1.000 Dy+++ 1.000 H+ 1.000 Succinate-- -8.0000 -8.0000 -8.0000 -8.0000 -8.0000 -8.0000 -8.0000 -8.0000 * logK= -8.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C DyH2-(Sal)2+ formula= DyH2(OC6H4COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 436.7294 g 3 species in reaction 1.000 Dy+++ 2.000 H+ 2.000 Sal-- -33.2673 -32.7468 -32.2700 -31.7480 -31.2738 -30.8410 -30.4445 -30.0799 * logK= -32.270000 deltaH= 62.200000 kJ DyH2-(Succinate)2+ formula= DyH2[(CH2)2(COO)2]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 396.6622 g 3 species in reaction 1.000 Dy+++ 2.000 H+ 2.000 Succinate-- -15.4500 -15.4500 -15.4500 -15.4500 -15.4500 -15.4500 -15.4500 -15.4500 * logK= -15.450000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C DyHEDTA (aq) formula= DyH(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 451.7213 g 3 species in reaction 1.000 Dy+++ 1.000 H+ 1.000 EDTA---- -21.7700 -21.7700 -21.7700 -21.7700 -21.7700 -21.7700 -21.7700 -21.7700 * logK= -21.770000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C DyNO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 224.5049 g 2 species in reaction 1.000 Dy+++ 1.000 NO3- -.3100 -.3100 -.3100 -.3100 -.3100 -.3100 -.3100 -.3100 * logK= -0.310000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C DyNTA (aq) formula= Dy[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 350.6165 g 2 species in reaction 1.000 Dy+++ 1.000 NTA--- -13.5500 -13.5500 -13.5500 -13.5500 -13.5500 -13.5500 -13.5500 -13.5500 * logK= -13.550000 deltaH= 0.000000 kJ DyOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 179.5073 g 3 species in reaction 1.000 Dy+++ -1.000 H+ 1.000 H2O 7.5870 7.5870 7.5870 7.5870 7.5870 7.5870 7.5870 7.5870 * logK= 7.587000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C DyOH-HEDTA- formula= DyOH(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 454.7450 g 4 species in reaction 1.000 Dy+++ -1.000 H+ 1.000 H2O 1.000 HEDTA--- -8.0800 -8.0800 -8.0800 -8.0800 -8.0800 -8.0800 -8.0800 -8.0800 * logK= -8.080000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C DyOHNTA- formula= DyOH[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 367.6238 g 4 species in reaction 1.000 Dy+++ 1.000 NTA--- -1.000 H+ 1.000 H2O -6.3950 -6.3950 -6.3950 -6.3950 -6.3950 -6.3950 -6.3950 -6.3950 * logK= -6.395000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C DySCN++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 220.5817 g 2 species in reaction 1.000 Dy+++ 1.000 SCN- -.9300 -.9300 -.9300 -.9300 -.9300 -.9300 -.9300 -.9300 * logK= -0.930000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C DySO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 258.5616 g 2 species in reaction 1.000 Dy+++ 1.000 SO4-- -3.2893 -3.4567 -3.6100 -3.7778 -3.9303 -4.0695 -4.1970 -4.3142 * logK= -3.610000 deltaH= -20.000000 kJ Er(NTA)2--- formula= Er[N(CH2COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 543.4920 g 2 species in reaction 2.000 NTA--- 1.000 Er+++ -23.2184 -23.1097 -23.0100 -22.9009 -22.8018 -22.7113 -22.6285 -22.5523 * logK= -23.010000 deltaH= 13.000000 kJ Er(SO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 359.3822 g 2 species in reaction 1.000 Er+++ 2.000 SO4-- -4.5709 -4.8470 -5.1000 -5.3769 -5.6285 -5.8581 -6.0685 -6.2620 * logK= -5.100000 deltaH= -33.000000 kJ Er-(Acetate)2+ formula= Er(CH3COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 285.3480 g 2 species in reaction 2.000 Acetate- 1.000 Er+++ -3.7612 -3.9537 -4.1300 -4.3230 -4.4984 -4.6584 -4.8050 -4.9399 * logK= -4.130000 deltaH= -23.000000 kJ Er-(Acetate)3 (aq) formula= Er(CH3COO)3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 344.3925 g 2 species in reaction 3.000 Acetate- 1.000 Er+++ -5.1433 -5.3190 -5.4800 -5.6562 -5.8163 -5.9624 -6.0963 -6.2194 * logK= -5.480000 deltaH= -21.000000 kJ Er-(Benzoate)2+ formula= Er(C6H5COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 409.4896 g 2 species in reaction 1.000 Er+++ 2.000 Benzoate- -4.7100 -4.7100 -4.7100 -4.7100 -4.7100 -4.7100 -4.7100 -4.7100 * logK= -4.710000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Er-(Formate)2+ formula= Er[HCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 257.2944 g 2 species in reaction 1.000 Er+++ 2.000 Formate- -2.8900 -2.8900 -2.8900 -2.8900 -2.8900 -2.8900 -2.8900 -2.8900 * logK= -2.890000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Er-(iButyrate)2+ formula= Er[(CH3)2CHCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 341.4552 g 2 species in reaction 2.000 iButyrate- 1.000 Er+++ -3.3367 -3.6464 -3.9300 -4.2405 -4.5226 -4.7800 -5.0159 -5.2328 * logK= -3.930000 deltaH= -37.000000 kJ Er-(Lactate)2+ formula= Er[CH3CH(OH)COO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 345.4004 g 2 species in reaction 2.000 Lactate- 1.000 Er+++ -6.7641 -6.7307 -6.7000 -6.6664 -6.6359 -6.6081 -6.5826 -6.5592 * logK= -6.700000 deltaH= 4.000000 kJ Er-(Lactate)3 (aq) formula= Er[CH3CH(OH)COO]3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 434.4711 g 2 species in reaction 3.000 Lactate- 1.000 Er+++ -8.8207 -8.6533 -8.5000 -8.3322 -8.1797 -8.0405 -7.9130 -7.7958 * logK= -8.500000 deltaH= 20.000000 kJ Er-(Malate)2- formula= Er(C4H4O5)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 431.4042 g 2 species in reaction 1.000 Er+++ 2.000 Malate-- -10.0700 -10.0700 -10.0700 -10.0700 -10.0700 -10.0700 -10.0700 -10.0700 * logK= -10.070000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Er-(Malonate)2- formula= Er[CH2(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 371.3518 g 2 species in reaction 2.000 Malonate-- 1.000 Er+++ -8.4073 -8.5913 -8.7600 -8.9446 -9.1124 -9.2654 -9.4057 -9.5346 * logK= -8.760000 deltaH= -22.000000 kJ Er-(Malonate)3--- formula= Er[CH2(COO)2]3--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 473.3982 g 2 species in reaction 3.000 Malonate-- 1.000 Er+++ -8.3750 -8.6177 -8.8400 -9.0834 -9.3045 -9.5062 -9.6911 -9.8611 * logK= -8.840000 deltaH= -29.000000 kJ Er-(Propionate)2+ formula= Er(CH3CH2COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 313.4016 g 2 species in reaction 2.000 Propionate- 1.000 Er+++ -4.1431 -4.3607 -4.5600 -4.7782 -4.9764 -5.1573 -5.3231 -5.4755 * logK= -4.560000 deltaH= -26.000000 kJ Er-Acetate++ formula= Er(CH3COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 226.3035 g 2 species in reaction 1.000 Acetate- 1.000 Er+++ -2.2216 -2.3303 -2.4300 -2.5391 -2.6382 -2.7287 -2.8115 -2.8877 * logK= -2.430000 deltaH= -13.000000 kJ Er-Benzoate++ formula= Er(C6H5COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 288.3743 g 2 species in reaction 1.000 Er+++ 1.000 Benzoate- -2.3936 -2.4857 -2.5700 -2.6623 -2.7462 -2.8227 -2.8928 -2.9573 * logK= -2.570000 deltaH= -11.000000 kJ Er-Citrate (aq) formula= Er[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 356.3603 g 2 species in reaction 1.000 Er+++ 1.000 Citrate--- -9.4100 -9.4100 -9.4100 -9.4100 -9.4100 -9.4100 -9.4100 -9.4100 * logK= -9.410000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Er-DTPA-- formula= Er(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 555.5693 g 2 species in reaction 1.000 Er+++ 1.000 DTPA----- -26.4510 -26.2000 -25.9700 -25.7183 -25.4895 -25.2808 -25.0895 -24.9137 * logK= -25.970000 deltaH= 30.000000 kJ Er-Formate++ formula= Er[HCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 212.2767 g 2 species in reaction 1.000 Er+++ 1.000 Formate- -1.7600 -1.7600 -1.7600 -1.7600 -1.7600 -1.7600 -1.7600 -1.7600 * logK= -1.760000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Er-Glutarate+ formula= Er[C3H6(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 297.3590 g 2 species in reaction 1.000 Er+++ 1.000 Glutarate-- -4.1074 -4.2497 -4.3800 -4.5227 -4.6523 -4.7706 -4.8789 -4.9786 * logK= -4.380000 deltaH= -17.000000 kJ Er-Glycine++ formula= Er[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 241.3181 g 2 species in reaction 1.000 Glycine- 1.000 Er+++ -4.3500 -4.3500 -4.3500 -4.3500 -4.3500 -4.3500 -4.3500 -4.3500 * logK= -4.350000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Er-HEDTA (aq) formula= Er(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 442.4967 g 2 species in reaction 1.000 Er+++ 1.000 HEDTA--- -17.4803 -17.3967 -17.3200 -17.2361 -17.1598 -17.0903 -17.0265 -16.9679 * logK= -17.320000 deltaH= 10.000000 kJ Er-iButyrate++ formula= Er[(CH3)2CHCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 254.3571 g 2 species in reaction 1.000 iButyrate- 1.000 Er+++ -2.1312 -2.3237 -2.5000 -2.6930 -2.8684 -3.0284 -3.1750 -3.3099 * logK= -2.500000 deltaH= -23.000000 kJ Er-iPhthalate+ formula= Er[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 331.3762 g 2 species in reaction 1.000 iPhthalate-- 1.000 Er+++ -3.6135 -3.7473 -3.8700 -4.0043 -4.1263 -4.2376 -4.3396 -4.4334 * logK= -3.870000 deltaH= -16.000000 kJ Er-Lactate++ formula= Er[CH3CH(OH)COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 256.3297 g 2 species in reaction 1.000 Lactate- 1.000 Er+++ -3.9167 -3.8506 -3.7900 -3.7237 -3.6635 -3.6085 -3.5581 -3.5118 * logK= -3.790000 deltaH= 7.900000 kJ Er-Malate+ formula= Er(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 299.3316 g 2 species in reaction 1.000 Er+++ 1.000 Malate-- -6.2500 -6.2500 -6.2500 -6.2500 -6.2500 -6.2500 -6.2500 -6.2500 * logK= -6.250000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Er-Malonate+ formula= Er[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 269.3054 g 2 species in reaction 1.000 Malonate-- 1.000 Er+++ -5.5016 -5.6103 -5.7100 -5.8191 -5.9182 -6.0087 -6.0915 -6.1677 * logK= -5.710000 deltaH= -13.000000 kJ Er-Phthalate+ formula= Er[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 331.3762 g 2 species in reaction 1.000 Phthalate-- 1.000 Er+++ -5.0400 -5.0400 -5.0400 -5.0400 -5.0400 -5.0400 -5.0400 -5.0400 * logK= -5.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Er-Propionate++ formula= Er(CH3CH2COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 240.3303 g 2 species in reaction 1.000 Propionate- 1.000 Er+++ -2.3335 -2.4673 -2.5900 -2.7243 -2.8463 -2.9576 -3.0596 -3.1534 * logK= -2.590000 deltaH= -16.000000 kJ Er-Succinate+ formula= Er[(CH2)2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 283.3322 g 2 species in reaction 1.000 Er+++ 1.000 Succinate-- -4.3374 -4.4797 -4.6100 -4.7527 -4.8823 -5.0006 -5.1089 -5.2086 * logK= -4.610000 deltaH= -17.000000 kJ Er-Tartrate+ formula= Er(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 315.3310 g 2 species in reaction 1.000 Tartrate-- 1.000 Er+++ -5.4300 -5.4300 -5.4300 -5.4300 -5.4300 -5.4300 -5.4300 -5.4300 * logK= -5.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ErEDTA- formula= Er(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 455.4724 g 2 species in reaction 1.000 Er+++ 1.000 EDTA---- -21.5638 -21.5044 -21.4500 -21.3904 -21.3363 -21.2869 -21.2416 -21.2000 * logK= -21.450000 deltaH= 7.100000 kJ ErEGTA- formula= Er(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 543.5784 g 2 species in reaction 1.000 EGTA---- 1.000 Er+++ -20.3600 -20.3600 -20.3600 -20.3600 -20.3600 -20.3600 -20.3600 -20.3600 * logK= -20.360000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ErF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 186.2574 g 2 species in reaction 1.000 Er+++ 1.000 F- -4.3897 -4.4733 -4.5500 -4.6339 -4.7102 -4.7797 -4.8435 -4.9021 * logK= -4.550000 deltaH= -10.000000 kJ ErH-(Malonate)2 (aq) formula= ErH[CH2(COO)2]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 372.3597 g 3 species in reaction 2.000 Malonate-- 1.000 H+ 1.000 Er+++ -12.2793 -12.4467 -12.6000 -12.7678 -12.9203 -13.0595 -13.1870 -13.3042 * logK= -12.600000 deltaH= -20.000000 kJ ErH-DTPA- formula= ErH(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 556.5772 g 3 species in reaction 1.000 H+ 1.000 Er+++ 1.000 DTPA----- -28.4000 -28.4000 -28.4000 -28.4000 -28.4000 -28.4000 -28.4000 -28.4000 * logK= -28.400000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ErH-Malate++ formula= ErH(C4H4O5)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 300.3395 g 3 species in reaction 1.000 H+ 1.000 Er+++ 1.000 Malate-- -7.0400 -7.0400 -7.0400 -7.0400 -7.0400 -7.0400 -7.0400 -7.0400 * logK= -7.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ErH-Malonate++ formula= ErH[CH2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 270.3133 g 3 species in reaction 1.000 Malonate-- 1.000 H+ 1.000 Er+++ -7.5652 -7.6408 -7.7100 -7.7858 -7.8546 -7.9175 -7.9750 -8.0280 * logK= -7.710000 deltaH= -9.030000 kJ ErH-Sal++ formula= ErH(OC6H4COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 304.3737 g 3 species in reaction 1.000 H+ 1.000 Er+++ 1.000 Sal-- -16.6643 -16.3907 -16.1400 -15.8656 -15.6163 -15.3888 -15.1803 -14.9886 * logK= -16.140000 deltaH= 32.700000 kJ ErH-Succinate++ formula= ErH[(CH2)2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 284.3401 g 3 species in reaction 1.000 H+ 1.000 Er+++ 1.000 Succinate-- -7.9900 -7.9900 -7.9900 -7.9900 -7.9900 -7.9900 -7.9900 -7.9900 * logK= -7.990000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ErH2-(Sal)2+ formula= ErH2(OC6H4COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 441.4884 g 3 species in reaction 2.000 H+ 1.000 Er+++ 2.000 Sal-- -33.1218 -32.5729 -32.0700 -31.5195 -31.0194 -30.5629 -30.1447 -29.7601 * logK= -32.070000 deltaH= 65.600000 kJ ErH2-(Succinate)2+ formula= ErH2[(CH2)2(COO)2]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 401.4212 g 3 species in reaction 2.000 H+ 1.000 Er+++ 2.000 Succinate-- -15.3500 -15.3500 -15.3500 -15.3500 -15.3500 -15.3500 -15.3500 -15.3500 * logK= -15.350000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ErNO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 229.2639 g 2 species in reaction 1.000 NO3- 1.000 Er+++ -.3100 -.3100 -.3100 -.3100 -.3100 -.3100 -.3100 -.3100 * logK= -0.310000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ErNTA (aq) formula= Er[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 355.3755 g 2 species in reaction 1.000 NTA--- 1.000 Er+++ -13.8200 -13.8200 -13.8200 -13.8200 -13.8200 -13.8200 -13.8200 -13.8200 * logK= -13.820000 deltaH= 0.000000 kJ ErOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 184.2663 g 3 species in reaction -1.000 H+ 1.000 Er+++ 1.000 H2O 7.4870 7.4870 7.4870 7.4870 7.4870 7.4870 7.4870 7.4870 * logK= 7.487000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ErOH-HEDTA- formula= ErOH(C10H15N2O7) charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 459.5040 g 4 species in reaction -1.000 H+ 1.000 Er+++ 1.000 H2O 1.000 HEDTA--- -8.4600 -8.4600 -8.4600 -8.4600 -8.4600 -8.4600 -8.4600 -8.4600 * logK= -8.460000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ErOHNTA- formula= ErOH[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 372.3828 g 4 species in reaction 1.000 NTA--- -1.000 H+ 1.000 Er+++ 1.000 H2O -6.3850 -6.3850 -6.3850 -6.3850 -6.3850 -6.3850 -6.3850 -6.3850 * logK= -6.385000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ErSCN++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 225.3407 g 2 species in reaction 1.000 Er+++ 1.000 SCN- -.9700 -.9700 -.9700 -.9700 -.9700 -.9700 -.9700 -.9700 * logK= -0.970000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ErSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 263.3206 g 2 species in reaction 1.000 Er+++ 1.000 SO4-- -3.2693 -3.4367 -3.5900 -3.7578 -3.9103 -4.0495 -4.1770 -4.2942 * logK= -3.590000 deltaH= -20.000000 kJ Eu(CO3)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 271.9824 g 2 species in reaction 1.000 Eu+++ 2.000 CO3-- -12.8693 -13.0367 -13.1900 -13.3578 -13.5103 -13.6495 -13.7770 -13.8942 * logK= -13.190000 deltaH= -20.000000 kJ Eu(NTA)2--- formula= Eu[N(CH2COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 528.1970 g 2 species in reaction 2.000 NTA--- 1.000 Eu+++ -22.9608 -22.7517 -22.5600 -22.3502 -22.1596 -21.9857 -21.8263 -21.6797 * logK= -22.560000 deltaH= 25.000000 kJ Eu(SO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 344.0872 g 2 species in reaction 1.000 Eu+++ 2.000 SO4-- -4.9350 -5.1777 -5.4000 -5.6434 -5.8645 -6.0662 -6.2511 -6.4211 * logK= -5.400000 deltaH= -29.000000 kJ Eu-(Acetate)2+ formula= Eu(CH3COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 270.0530 g 2 species in reaction 2.000 Acetate- 1.000 Eu+++ -4.7100 -4.7100 -4.7100 -4.7100 -4.7100 -4.7100 -4.7100 -4.7100 * logK= -4.710000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Eu-(Acetate)3 (aq) formula= Eu(CH3COO)3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 329.0975 g 2 species in reaction 3.000 Acetate- 1.000 Eu+++ -5.5200 -5.5200 -5.5200 -5.5200 -5.5200 -5.5200 -5.5200 -5.5200 * logK= -5.520000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Eu-(Benzoate)2+ formula= Eu(C6H5COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 394.1946 g 2 species in reaction 1.000 Eu+++ 2.000 Benzoate- -4.8700 -4.8700 -4.8700 -4.8700 -4.8700 -4.8700 -4.8700 -4.8700 * logK= -4.870000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Eu-(Formate)2+ formula= Eu[HCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 241.9994 g 2 species in reaction 1.000 Eu+++ 2.000 Formate- -3.0200 -3.0200 -3.0200 -3.0200 -3.0200 -3.0200 -3.0200 -3.0200 * logK= -3.020000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Eu-(iButyrate)2+ formula= Eu[(CH3)2CHCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 326.1602 g 2 species in reaction 2.000 iButyrate- 1.000 Eu+++ -4.1193 -4.2867 -4.4400 -4.6078 -4.7603 -4.8995 -5.0270 -5.1442 * logK= -4.440000 deltaH= -20.000000 kJ Eu-(Lactate)2+ formula= Eu[CH3CH(OH)COO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 330.1054 g 2 species in reaction 2.000 Lactate- 1.000 Eu+++ -6.3883 -6.3213 -6.2600 -6.1929 -6.1319 -6.0762 -6.0252 -5.9783 * logK= -6.260000 deltaH= 8.000000 kJ Eu-(Lactate)3 (aq) formula= Eu[CH3CH(OH)COO]3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 419.1761 g 2 species in reaction 3.000 Lactate- 1.000 Eu+++ -8.0607 -7.8933 -7.7400 -7.5722 -7.4197 -7.2805 -7.1530 -7.0358 * logK= -7.740000 deltaH= 20.000000 kJ Eu-(Malate)2- formula= Eu(C4H4O5)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 416.1092 g 2 species in reaction 2.000 Malate-- 1.000 Eu+++ -9.8300 -9.8300 -9.8300 -9.8300 -9.8300 -9.8300 -9.8300 -9.8300 * logK= -9.830000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Eu-(Malonate)2- formula= Eu[CH2(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 356.0568 g 2 species in reaction 2.000 Malonate-- 1.000 Eu+++ -8.3893 -8.5567 -8.7100 -8.8778 -9.0303 -9.1695 -9.2970 -9.4142 * logK= -8.710000 deltaH= -20.000000 kJ Eu-(Oxalate)2- formula= Eu[(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 328.0032 g 2 species in reaction 1.000 Eu+++ 2.000 Oxalate-- -10.7600 -10.7600 -10.7600 -10.7600 -10.7600 -10.7600 -10.7600 -10.7600 * logK= -10.760000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Eu-(Propionate)2+ formula= Eu(CH3CH2COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 298.1066 g 2 species in reaction 2.000 Propionate- 1.000 Eu+++ -4.6536 -4.7457 -4.8300 -4.9223 -5.0062 -5.0827 -5.1528 -5.2173 * logK= -4.830000 deltaH= -11.000000 kJ Eu-Acetate++ formula= Eu(CH3COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 211.0085 g 2 species in reaction 1.000 Acetate- 1.000 Eu+++ -2.6562 -2.7156 -2.7700 -2.8296 -2.8837 -2.9331 -2.9784 -3.0200 * logK= -2.770000 deltaH= -7.100000 kJ Eu-Benzoate++ formula= Eu(C6H5COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 273.0793 g 2 species in reaction 1.000 Eu+++ 1.000 Benzoate- -2.6833 -2.7494 -2.8100 -2.8763 -2.9365 -2.9915 -3.0419 -3.0882 * logK= -2.810000 deltaH= -7.900000 kJ Eu-Citrate (aq) formula= Eu[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 341.0653 g 2 species in reaction 1.000 Citrate--- 1.000 Eu+++ -9.4600 -9.4600 -9.4600 -9.4600 -9.4600 -9.4600 -9.4600 -9.4600 * logK= -9.460000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Eu-DTPA-- formula= Eu(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 540.2743 g 2 species in reaction 1.000 Eu+++ 1.000 DTPA----- -26.1231 -25.8553 -25.6100 -25.3415 -25.0975 -24.8748 -24.6708 -24.4832 * logK= -25.610000 deltaH= 32.000000 kJ Eu-Formate++ formula= Eu[HCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 196.9817 g 2 species in reaction 1.000 Eu+++ 1.000 Formate- -2.0500 -2.0500 -2.0500 -2.0500 -2.0500 -2.0500 -2.0500 -2.0500 * logK= -2.050000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Eu-Glycine++ formula= Eu[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 226.0231 g 2 species in reaction 1.000 Glycine- 1.000 Eu+++ -4.1500 -4.1500 -4.1500 -4.1500 -4.1500 -4.1500 -4.1500 -4.1500 * logK= -4.150000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Eu-HEDTA (aq) formula= Eu(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 427.2017 g 2 species in reaction 1.000 Eu+++ 1.000 HEDTA--- -17.7450 -17.5023 -17.2800 -17.0366 -16.8155 -16.6138 -16.4289 -16.2589 * logK= -17.280000 deltaH= 29.000000 kJ Eu-iButyrate++ formula= Eu[(CH3)2CHCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 239.0621 g 2 species in reaction 1.000 iButyrate- 1.000 Eu+++ -2.5976 -2.6980 -2.7900 -2.8907 -2.9822 -3.0657 -3.1422 -3.2125 * logK= -2.790000 deltaH= -12.000000 kJ Eu-iPhthalate+ formula= Eu[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 316.0812 g 2 species in reaction 1.000 iPhthalate-- 1.000 Eu+++ -3.8836 -3.9757 -4.0600 -4.1523 -4.2362 -4.3127 -4.3828 -4.4473 * logK= -4.060000 deltaH= -11.000000 kJ Eu-Lactate++ formula= Eu[CH3CH(OH)COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 241.0347 g 2 species in reaction 1.000 Lactate- 1.000 Eu+++ -3.6494 -3.5975 -3.5500 -3.4980 -3.4507 -3.4076 -3.3680 -3.3317 * logK= -3.550000 deltaH= 6.200000 kJ Eu-Malate+ formula= Eu(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 284.0366 g 2 species in reaction 1.000 Malate-- 1.000 Eu+++ -6.1400 -6.1400 -6.1400 -6.1400 -6.1400 -6.1400 -6.1400 -6.1400 * logK= -6.140000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Eu-Malonate+ formula= Eu[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 254.0104 g 2 species in reaction 1.000 Malonate-- 1.000 Eu+++ -5.3876 -5.4880 -5.5800 -5.6807 -5.7722 -5.8557 -5.9322 -6.0025 * logK= -5.580000 deltaH= -12.000000 kJ Eu-Oxalate+ formula= Eu[(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 239.9836 g 2 species in reaction 1.000 Eu+++ 1.000 Oxalate-- -6.5200 -6.5200 -6.5200 -6.5200 -6.5200 -6.5200 -6.5200 -6.5200 * logK= -6.520000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Eu-Phthalate+ formula= Eu[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 316.0812 g 2 species in reaction 1.000 Phthalate-- 1.000 Eu+++ -4.9800 -4.9800 -4.9800 -4.9800 -4.9800 -4.9800 -4.9800 -4.9800 * logK= -4.980000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Eu-Propionate++ formula= Eu(CH3CH2COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 225.0353 g 2 species in reaction 1.000 Propionate- 1.000 Eu+++ -2.7597 -2.8225 -2.8800 -2.9429 -3.0001 -3.0523 -3.1001 -3.1441 * logK= -2.880000 deltaH= -7.500000 kJ Eu-Tartrate+ formula= Eu(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 300.0360 g 2 species in reaction 1.000 Tartrate-- 1.000 Eu+++ -5.6200 -5.6200 -5.6200 -5.6200 -5.6200 -5.6200 -5.6200 -5.6200 * logK= -5.620000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C EuBr++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 231.8680 g 2 species in reaction 1.000 Br- 1.000 Eu+++ -.4100 -.4100 -.4100 -.4100 -.4100 -.4100 -.4100 -.4100 * logK= -0.410000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C EuBr2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 311.7720 g 2 species in reaction 2.000 Br- 1.000 Eu+++ -.6200 -.6200 -.6200 -.6200 -.6200 -.6200 -.6200 -.6200 * logK= -0.620000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C EuCl++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 187.4170 g 2 species in reaction 1.000 Cl- 1.000 Eu+++ -.5700 -.5700 -.5700 -.5700 -.5700 -.5700 -.5700 -.5700 * logK= -0.570000 deltaH= 0.000000 kJ EuCO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 211.9732 g 2 species in reaction 1.000 Eu+++ 1.000 CO3-- -7.6659 -7.6993 -7.7300 -7.7636 -7.7941 -7.8219 -7.8474 -7.8708 * logK= -7.730000 deltaH= -4.000000 kJ EuEDTA- formula= Eu(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 440.1774 g 2 species in reaction 1.000 Eu+++ 1.000 EDTA---- -19.9703 -19.8867 -19.8100 -19.7261 -19.6498 -19.5803 -19.5165 -19.4579 * logK= -19.810000 deltaH= 10.000000 kJ EuEGTA- formula= Eu(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 528.2834 g 2 species in reaction 1.000 EGTA---- 1.000 Eu+++ -20.0600 -20.0600 -20.0600 -20.0600 -20.0600 -20.0600 -20.0600 -20.0600 * logK= -20.060000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C EuF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 170.9624 g 2 species in reaction 1.000 Eu+++ 1.000 F- -4.0861 -4.1664 -4.2400 -4.3206 -4.3938 -4.4605 -4.5217 -4.5780 * logK= -4.240000 deltaH= -9.600000 kJ EuF2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 189.9608 g 2 species in reaction 1.000 Eu+++ 2.000 F- -6.4535 -6.5873 -6.7100 -6.8443 -6.9663 -7.0776 -7.1796 -7.2734 * logK= -6.710000 deltaH= -16.000000 kJ EuH-(Malonate)2 (aq) formula= EuH[CH2(COO)2]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 357.0647 g 3 species in reaction 2.000 Malonate-- 1.000 H+ 1.000 Eu+++ -12.4974 -12.6397 -12.7700 -12.9127 -13.0423 -13.1606 -13.2689 -13.3686 * logK= -12.770000 deltaH= -17.000000 kJ EuH-DTPA- formula= EuH(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 541.2822 g 3 species in reaction 1.000 H+ 1.000 Eu+++ 1.000 DTPA----- -28.1900 -28.1900 -28.1900 -28.1900 -28.1900 -28.1900 -28.1900 -28.1900 * logK= -28.190000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C EuH-Malonate++ formula= EuH[CH2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 255.0183 g 3 species in reaction 1.000 Malonate-- 1.000 H+ 1.000 Eu+++ -7.9029 -7.9692 -8.0300 -8.0965 -8.1570 -8.2122 -8.2627 -8.3092 * logK= -8.030000 deltaH= -7.930000 kJ EuH-Sal++ formula= EuH(OC6H4COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 289.0787 g 3 species in reaction 1.000 H+ 1.000 Sal-- 1.000 Eu+++ -16.8964 -16.6060 -16.3400 -16.0488 -15.7842 -15.5428 -15.3216 -15.1182 * logK= -16.340000 deltaH= 34.700000 kJ EuH-Succinate++ formula= EuH[(CH2)2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 269.0451 g 3 species in reaction 1.000 H+ 1.000 Eu+++ 1.000 Succinate-- -8.2700 -8.2700 -8.2700 -8.2700 -8.2700 -8.2700 -8.2700 -8.2700 * logK= -8.270000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C EuH2-(Sal)2+ formula= EuH2(OC6H4COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 426.1934 g 3 species in reaction 2.000 H+ 2.000 Sal-- 1.000 Eu+++ -33.3218 -32.7729 -32.2700 -31.7195 -31.2194 -30.7629 -30.3447 -29.9601 * logK= -32.270000 deltaH= 65.600000 kJ EuH2-(Succinate)2+ formula= EuH2[(CH2)2(COO)2]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 386.1262 g 3 species in reaction 2.000 H+ 1.000 Eu+++ 2.000 Succinate-- -15.6500 -15.6500 -15.6500 -15.6500 -15.6500 -15.6500 -15.6500 -15.6500 * logK= -15.650000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C EuHCO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 212.9811 g 3 species in reaction 1.000 H+ 1.000 Eu+++ 1.000 CO3-- -12.3491 -12.4696 -12.5800 -12.7008 -12.8106 -12.9108 -13.0026 -13.0870 * logK= -12.580000 deltaH= -14.400000 kJ EuHEDTA (aq) formula= EuH(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 441.1853 g 3 species in reaction 1.000 H+ 1.000 Eu+++ 1.000 EDTA---- -21.4200 -21.4200 -21.4200 -21.4200 -21.4200 -21.4200 -21.4200 -21.4200 * logK= -21.420000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C EuI++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 278.8684 g 2 species in reaction 1.000 Eu+++ 1.000 I- -.2100 -.2100 -.2100 -.2100 -.2100 -.2100 -.2100 -.2100 * logK= -0.210000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C EuNO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 213.9689 g 2 species in reaction 1.000 NO3- 1.000 Eu+++ -1.2938 -1.2553 -1.2200 -1.1814 -1.1463 -1.1143 -1.0850 -1.0580 * logK= -1.220000 deltaH= 4.600000 kJ EuNTA (aq) formula= Eu[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 340.0805 g 2 species in reaction 1.000 NTA--- 1.000 Eu+++ -13.3394 -13.2875 -13.2400 -13.1880 -13.1407 -13.0976 -13.0580 -13.0217 * logK= -13.240000 deltaH= 6.200000 kJ EuOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 168.9713 g 3 species in reaction -1.000 H+ 1.000 Eu+++ 1.000 H2O 7.7870 7.7870 7.7870 7.7870 7.7870 7.7870 7.7870 7.7870 * logK= 7.787000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C EuOH-HEDTA- formula= EuOH(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 444.2090 g 4 species in reaction -1.000 H+ 1.000 Eu+++ 1.000 H2O 1.000 HEDTA--- -7.3100 -7.3100 -7.3100 -7.3100 -7.3100 -7.3100 -7.3100 -7.3100 * logK= -7.310000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C EuOHNTA- formula= EuOH[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 357.0878 g 4 species in reaction 1.000 NTA--- -1.000 H+ 1.000 Eu+++ 1.000 H2O -20.0800 -20.0800 -20.0800 -20.0800 -20.0800 -20.0800 -20.0800 -20.0800 * logK= -20.080000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C EuSCN++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 210.0457 g 2 species in reaction 1.000 Eu+++ 1.000 SCN- -.6359 -.6693 -.7000 -.7336 -.7641 -.7919 -.8174 -.8408 * logK= -0.700000 deltaH= -4.000000 kJ EuSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 248.0256 g 2 species in reaction 1.000 Eu+++ 1.000 SO4-- -3.3493 -3.5167 -3.6700 -3.8378 -3.9903 -4.1295 -4.2570 -4.3742 * logK= -3.670000 deltaH= -20.000000 kJ Fe(CN)6--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 211.9532 g 2 species in reaction 1.000 Fe+++ 6.000 CN- -48.2980 -45.8462 -43.6000 -41.1413 -38.9073 -36.8687 -35.0008 -33.2831 * logK= -43.600000 deltaH= 293.000000 kJ Fe(CN)6---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 211.9532 g 2 species in reaction 1.000 Fe++ 6.000 CN- -41.1402 -38.1445 -35.4000 -32.3958 -29.6663 -27.1754 -24.8932 -22.7944 * logK= -35.400000 deltaH= 358.000000 kJ Fe(NH3)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 89.9078 g 3 species in reaction 1.000 Fe++ -2.000 H+ 2.000 NH4+ 17.6670 16.9223 16.2400 15.4932 14.8146 14.1953 13.6280 13.1062 * logK= 16.240000 deltaH= -89.000000 kJ Fe(NH3)3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 106.9382 g 3 species in reaction 1.000 Fe++ -3.000 H+ 3.000 NH4+ 27.1825 26.0696 25.0500 23.9339 22.9199 21.9945 21.1466 20.3669 * logK= 25.050000 deltaH= -133.000000 kJ Fe(NH3)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 123.9686 g 3 species in reaction 1.000 Fe++ -4.000 H+ 4.000 NH4+ 37.0680 35.5869 34.2300 32.7447 31.3952 30.1637 29.0353 27.9976 * logK= 34.230000 deltaH= -177.000000 kJ Fe(NO2)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 147.8580 g 2 species in reaction 1.000 Fe+++ 2.000 NO2- -4.7200 -4.7200 -4.7200 -4.7200 -4.7200 -4.7200 -4.7200 -4.7200 * logK= -4.720000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe(NO2)3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 193.8635 g 2 species in reaction 1.000 Fe+++ 3.000 NO2- -6.7800 -6.7800 -6.7800 -6.7800 -6.7800 -6.7800 -6.7800 -6.7800 * logK= -6.780000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe(NTA)2--- formula= Fe[N(CH2COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 432.0800 g 2 species in reaction 1.000 Fe+++ 2.000 NTA--- -25.9200 -25.9200 -25.9200 -25.9200 -25.9200 -25.9200 -25.9200 -25.9200 * logK= -25.920000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe(NTA)2---- formula= Fe[N(CH2COO)3]2---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 432.0800 g 2 species in reaction 2.000 NTA--- 1.000 Fe++ -12.6200 -12.6200 -12.6200 -12.6200 -12.6200 -12.6200 -12.6200 -12.6200 * logK= -12.620000 deltaH= 0.000000 kJ Fe(OH)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 89.8616 g 3 species in reaction 1.000 Fe++ -2.000 H+ 2.000 H2O 22.4120 21.4110 20.4940 19.4902 18.5782 17.7459 16.9833 16.2820 * logK= 20.494000 deltaH= -119.620000 kJ Fe(OH)2+ charge= 1 ion size= 5.4 A b= 0.0000 mole wt.= 89.8616 g 3 species in reaction 1.000 Fe+++ -2.000 H+ 2.000 H2O 6.3545 6.0390 5.7500 5.4336 5.1462 4.8839 4.6436 4.4225 * logK= 5.750000 deltaH= -37.700000 kJ Fe(OH)2-DTPA----- formula= Fe(OH)2(C14H18N3O10)----- charge= -5 ion size= 0.0 A b= 0.0000 mole wt.= 478.1719 g 4 species in reaction 1.000 Fe++ -2.000 H+ 1.000 DTPA----- 2.000 H2O 1.7400 1.7400 1.7400 1.7400 1.7400 1.7400 1.7400 1.7400 * logK= 1.740000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe(OH)2-HEDTA-- formula= Fe(OH)2(C10H15N2O7)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 365.0993 g 4 species in reaction 1.000 Fe+++ -2.000 H+ 2.000 H2O 1.000 HEDTA--- -8.2800 -8.2800 -8.2800 -8.2800 -8.2800 -8.2800 -8.2800 -8.2800 * logK= -8.280000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe(OH)2NTA-- formula= Fe(OH)2[N(CH2COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 277.9781 g 4 species in reaction 1.000 Fe+++ 1.000 NTA--- -2.000 H+ 2.000 H2O -5.2400 -5.2400 -5.2400 -5.2400 -5.2400 -5.2400 -5.2400 -5.2400 * logK= -5.240000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe(OH)3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 106.8689 g 3 species in reaction 1.000 Fe+++ -3.000 H+ 3.000 H2O 16.2074 15.5773 15.0000 14.3681 13.7940 13.2701 12.7900 12.3486 * logK= 15.000000 deltaH= -75.300000 kJ Fe(OH)3- charge= -1 ion size= 5.0 A b= 0.0000 mole wt.= 106.8689 g 3 species in reaction 1.000 Fe++ -3.000 H+ 3.000 H2O 33.0182 31.9602 30.9910 29.9301 28.9661 28.0864 27.2804 26.5392 * logK= 30.991000 deltaH= -126.430000 kJ Fe(OH)3-HEDTA--- formula= Fe(OH)3(C10H15N2O7)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 382.1066 g 4 species in reaction 1.000 Fe+++ -3.000 H+ 3.000 H2O 1.000 HEDTA--- 2.3700 2.3700 2.3700 2.3700 2.3700 2.3700 2.3700 2.3700 * logK= 2.370000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe(OH)3NTA--- formula= Fe(OH)3[N(CH2COO)3]--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 294.9854 g 4 species in reaction 1.000 Fe+++ 1.000 NTA--- -3.000 H+ 3.000 H2O 6.1200 6.1200 6.1200 6.1200 6.1200 6.1200 6.1200 6.1200 * logK= 6.120000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe(OH)4- charge= -1 ion size= 5.4 A b= 0.0000 mole wt.= 123.8762 g 3 species in reaction 1.000 Fe+++ -4.000 H+ 4.000 H2O 25.1821 23.8867 22.7000 21.4010 20.2207 19.1437 18.1568 17.2493 * logK= 22.700000 deltaH= -154.800000 kJ Fe(S2O3)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 280.0994 g 2 species in reaction 1.000 Fe+++ 2.000 S2O3-- -4.7500 -4.7500 -4.7500 -4.7500 -4.7500 -4.7500 -4.7500 -4.7500 * logK= -4.750000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe(SCN)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 172.0104 g 2 species in reaction 1.000 Fe+++ 2.000 SCN- -4.7924 -4.6920 -4.6000 -4.4993 -4.4078 -4.3243 -4.2478 -4.1775 * logK= -4.600000 deltaH= 12.000000 kJ Fe(SCN)3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 230.0921 g 2 species in reaction 1.000 Fe+++ 3.000 SCN- -5.6308 -5.4217 -5.2300 -5.0202 -4.8296 -4.6557 -4.4963 -4.3497 * logK= -5.230000 deltaH= 25.000000 kJ Fe(SO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 247.9702 g 2 species in reaction 1.000 Fe+++ 2.000 SO4-- -5.0721 -5.2328 -5.3800 -5.5411 -5.6875 -5.8211 -5.9435 -6.0561 * logK= -5.380000 deltaH= -19.200000 kJ Fe-(Acetate)2+ formula= Fe(CH3COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 173.9360 g 2 species in reaction 1.000 Fe+++ 2.000 Acetate- -7.5700 -7.5700 -7.5700 -7.5700 -7.5700 -7.5700 -7.5700 -7.5700 * logK= -7.570000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe-(Acetate)3 (aq) formula= Fe(CH3COO)3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 232.9805 g 2 species in reaction 1.000 Fe+++ 3.000 Acetate- -9.5867 -9.5867 -9.5867 -9.5867 -9.5867 -9.5867 -9.5867 -9.5867 * logK= -9.586700 deltaH= 0.000000 kJ Fe-(Glycine)2 (aq) formula= Fe[NH2CH2COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 203.9652 g 2 species in reaction 2.000 Glycine- 1.000 Fe++ -8.3100 -8.3100 -8.3100 -8.3100 -8.3100 -8.3100 -8.3100 -8.3100 * logK= -8.310000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe-(Glycine)3- formula= Fe[NH2CH2COO]3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 278.0243 g 2 species in reaction 3.000 Glycine- 1.000 Fe++ -9.4800 -9.4800 -9.4800 -9.4800 -9.4800 -9.4800 -9.4800 -9.4800 * logK= -9.480000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe-(Malonate)2- formula= Fe[CH2(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 259.9398 g 2 species in reaction 1.000 Fe+++ 2.000 Malonate-- -15.4955 -15.6127 -15.7200 -15.8375 -15.9442 -16.0416 -16.1309 -16.2130 * logK= -15.720000 deltaH= -14.000000 kJ Fe-(Malonate)3--- formula= Fe[CH2(COO)2]3--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 361.9862 g 2 species in reaction 1.000 Fe+++ 3.000 Malonate-- -18.4362 -18.4956 -18.5500 -18.6096 -18.6637 -18.7131 -18.7584 -18.8000 * logK= -18.550000 deltaH= -7.100000 kJ Fe-(Oxalate)2- formula= Fe[(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 231.8862 g 2 species in reaction 1.000 Fe+++ 2.000 Oxalate-- -15.4179 -15.4347 -15.4500 -15.4668 -15.4820 -15.4959 -15.5087 -15.5204 * logK= -15.450000 deltaH= -2.000000 kJ Fe-(Oxalate)2-- formula= Fe[(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 231.8862 g 2 species in reaction 1.000 Fe++ 2.000 Oxalate-- -5.9000 -5.9000 -5.9000 -5.9000 -5.9000 -5.9000 -5.9000 -5.9000 * logK= -5.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe-(Oxalate)3--- formula= Fe[(COO)2]3--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 319.9058 g 2 species in reaction 1.000 Fe+++ 3.000 Oxalate-- -19.8236 -19.8269 -19.8300 -19.8334 -19.8364 -19.8392 -19.8417 -19.8441 * logK= -19.830000 deltaH= -0.400000 kJ Fe-(Sal)2- formula= Fe(OC6H4COO)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 328.0606 g 2 species in reaction 1.000 Fe+++ 2.000 Sal-- -29.5500 -29.5500 -29.5500 -29.5500 -29.5500 -29.5500 -29.5500 -29.5500 * logK= -29.550000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe-(Sal)2-- formula= Fe(OC6H4COO)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 328.0606 g 2 species in reaction 1.000 Fe++ 2.000 Sal-- -11.7000 -11.7000 -11.7000 -11.7000 -11.7000 -11.7000 -11.7000 -11.7000 * logK= -11.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe-Acetate+ formula= Fe(CH3COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 114.8915 g 2 species in reaction 1.000 Acetate- 1.000 Fe++ -1.4000 -1.4000 -1.4000 -1.4000 -1.4000 -1.4000 -1.4000 -1.4000 * logK= -1.400000 deltaH= 0.000000 kJ Fe-Acetate++ formula= Fe(CH3COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 114.8915 g 2 species in reaction 1.000 Fe+++ 1.000 Acetate- -3.8392 -4.0483 -4.2400 -4.4498 -4.6404 -4.8143 -4.9737 -5.1203 * logK= -4.240000 deltaH= -25.000000 kJ Fe-Butyrate++ formula= Fe[CH3CH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 142.9451 g 2 species in reaction 1.000 Fe+++ 1.000 Butyrate- -3.2336 -3.3257 -3.4100 -3.5023 -3.5862 -3.6627 -3.7328 -3.7973 * logK= -3.410000 deltaH= -11.000000 kJ Fe-Citrate (aq) formula= Fe[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 244.9483 g 2 species in reaction 1.000 Fe+++ 1.000 Citrate--- -13.5790 -13.3447 -13.1300 -12.8950 -12.6816 -12.4867 -12.3082 -12.1441 * logK= -13.130000 deltaH= 28.000000 kJ Fe-Citrate- formula= Fe[C3H5O(COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 244.9483 g 2 species in reaction 1.000 Fe++ 1.000 Citrate--- -5.8900 -5.8900 -5.8900 -5.8900 -5.8900 -5.8900 -5.8900 -5.8900 * logK= -5.890000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe-DTPA-- formula= Fe(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 444.1573 g 2 species in reaction 1.000 Fe+++ 1.000 DTPA----- -31.2200 -31.2200 -31.2200 -31.2200 -31.2200 -31.2200 -31.2200 -31.2200 * logK= -31.220000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe-DTPA--- formula= Fe(C14H18N3O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 444.1573 g 2 species in reaction 1.000 Fe++ 1.000 DTPA----- -18.8631 -18.5953 -18.3500 -18.0815 -17.8375 -17.6148 -17.4108 -17.2232 * logK= -18.350000 deltaH= 32.000000 kJ Fe-Formate++ formula= Fe[HCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 100.8647 g 2 species in reaction 1.000 Fe+++ 1.000 Formate- -2.7771 -3.0030 -3.2100 -3.4366 -3.6424 -3.8303 -4.0024 -4.1607 * logK= -3.210000 deltaH= -27.000000 kJ Fe-Glutamate (aq) formula= Fe(C5H7NO4) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 200.9616 g 2 species in reaction 1.000 Fe++ 1.000 Glutamate-- -4.4400 -4.4400 -4.4400 -4.4400 -4.4400 -4.4400 -4.4400 -4.4400 * logK= -4.440000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe-Glutamate+ formula= Fe(C5H7NO4)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 200.9616 g 2 species in reaction 1.000 Fe+++ 1.000 Glutamate-- -13.3900 -13.3900 -13.3900 -13.3900 -13.3900 -13.3900 -13.3900 -13.3900 * logK= -13.390000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe-Glutarate+ formula= Fe[C3H6(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 185.9470 g 2 species in reaction 1.000 Fe+++ 1.000 Glutarate-- -8.4000 -8.4000 -8.4000 -8.4000 -8.4000 -8.4000 -8.4000 -8.4000 * logK= -8.400000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe-Glycine+ formula= Fe[NH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 129.9061 g 2 species in reaction 1.000 Glycine- 1.000 Fe++ -4.5505 -4.4250 -4.3100 -4.1841 -4.0698 -3.9654 -3.8698 -3.7818 * logK= -4.310000 deltaH= 15.000000 kJ Fe-Glycine++ formula= Fe[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 129.9061 g 2 species in reaction 1.000 Fe+++ 1.000 Glycine- -9.3800 -9.3800 -9.3800 -9.3800 -9.3800 -9.3800 -9.3800 -9.3800 * logK= -9.380000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe-HEDTA (aq) formula= Fe(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 331.0847 g 2 species in reaction 1.000 Fe+++ 1.000 HEDTA--- -21.6400 -21.6400 -21.6400 -21.6400 -21.6400 -21.6400 -21.6400 -21.6400 * logK= -21.640000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe-HEDTA- formula= Fe(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 331.0847 g 2 species in reaction 1.000 Fe++ 1.000 HEDTA--- -13.8908 -13.6817 -13.4900 -13.2802 -13.0896 -12.9157 -12.7563 -12.6097 * logK= -13.490000 deltaH= 25.000000 kJ Fe-iButyrate++ formula= Fe[(CH3)2CHCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 142.9451 g 2 species in reaction 1.000 Fe+++ 1.000 iButyrate- -3.7176 -3.8180 -3.9100 -4.0107 -4.1022 -4.1857 -4.2622 -4.3325 * logK= -3.910000 deltaH= -12.000000 kJ Fe-iValerate++ formula= Fe[(CH3)2CHCH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 156.9719 g 2 species in reaction 1.000 Fe+++ 1.000 iValerate- -3.0535 -3.1873 -3.3100 -3.4443 -3.5663 -3.6776 -3.7796 -3.8734 * logK= -3.310000 deltaH= -16.000000 kJ Fe-Malate (aq) formula= Fe(C4H4O5) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 187.9196 g 2 species in reaction 1.000 Fe++ 1.000 Malate-- -3.4700 -3.4700 -3.4700 -3.4700 -3.4700 -3.4700 -3.4700 -3.4700 * logK= -3.470000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe-Malate+ formula= Fe(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 187.9196 g 2 species in reaction 1.000 Fe+++ 1.000 Malate-- -8.3900 -8.3900 -8.3900 -8.3900 -8.3900 -8.3900 -8.3900 -8.3900 * logK= -8.390000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe-Malonate (aq) formula= Fe[CH2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 157.8934 g 2 species in reaction 1.000 Malonate-- 1.000 Fe++ -3.1200 -3.1200 -3.1200 -3.1200 -3.1200 -3.1200 -3.1200 -3.1200 * logK= -3.120000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe-Malonate+ formula= Fe[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 157.8934 g 2 species in reaction 1.000 Fe+++ 1.000 Malonate-- -9.2497 -9.3333 -9.4100 -9.4939 -9.5702 -9.6397 -9.7035 -9.7621 * logK= -9.410000 deltaH= -10.000000 kJ Fe-Oxalate (aq) formula= Fe[(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 143.8666 g 2 species in reaction 1.000 Fe++ 1.000 Oxalate-- -3.9700 -3.9700 -3.9700 -3.9700 -3.9700 -3.9700 -3.9700 -3.9700 * logK= -3.970000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe-Oxalate+ formula= Fe[(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 143.8666 g 2 species in reaction 1.000 Fe+++ 1.000 Oxalate-- -9.0634 -9.1086 -9.1500 -9.1953 -9.2365 -9.2741 -9.3085 -9.3401 * logK= -9.150000 deltaH= -5.400000 kJ Fe-Propionate++ formula= Fe(CH3CH2COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 128.9183 g 2 species in reaction 1.000 Fe+++ 1.000 Propionate- -3.3733 -3.5490 -3.7100 -3.8862 -4.0463 -4.1924 -4.3263 -4.4494 * logK= -3.710000 deltaH= -21.000000 kJ Fe-Sal (aq) formula= Fe(OC6H4COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 191.9538 g 2 species in reaction 1.000 Fe++ 1.000 Sal-- -7.3300 -7.3300 -7.3300 -7.3300 -7.3300 -7.3300 -7.3300 -7.3300 * logK= -7.330000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe-Sal+ formula= Fe(OC6H4COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 191.9538 g 2 species in reaction 1.000 Fe+++ 1.000 Sal-- -17.9300 -17.7317 -17.5500 -17.3511 -17.1704 -17.0055 -16.8544 -16.7155 * logK= -17.550000 deltaH= 23.700000 kJ Fe-Succinate+ formula= Fe[(CH2)2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 171.9202 g 2 species in reaction 1.000 Fe+++ 1.000 Succinate-- -8.0100 -8.0100 -8.0100 -8.0100 -8.0100 -8.0100 -8.0100 -8.0100 * logK= -8.010000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe-Tartrate (aq) formula= Fe(C4H4O6) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 203.9190 g 2 species in reaction 1.000 Tartrate-- 1.000 Fe++ -3.1100 -3.1100 -3.1100 -3.1100 -3.1100 -3.1100 -3.1100 -3.1100 * logK= -3.110000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe-Tartrate+ formula= Fe(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 203.9190 g 2 species in reaction 1.000 Fe+++ 1.000 Tartrate-- -7.7800 -7.7800 -7.7800 -7.7800 -7.7800 -7.7800 -7.7800 -7.7800 * logK= -7.780000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe-Valerate++ formula= Fe[CH3(CH2)3COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 156.9719 g 2 species in reaction 1.000 Fe+++ 1.000 Valerate- -3.3016 -3.4103 -3.5100 -3.6191 -3.7182 -3.8087 -3.8915 -3.9677 * logK= -3.510000 deltaH= -13.000000 kJ Fe2(CN)6 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 267.8002 g 2 species in reaction 2.000 Fe+++ 6.000 CN- -51.1309 -49.3067 -47.6355 -45.8061 -44.1440 -42.6272 -41.2375 -39.9595 * logK= -47.635500 deltaH= 218.000000 kJ Fe2(OH)2(EDTA)2---- formula= Fe2(OH)2(C10H12N2O8)2---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 722.1354 g 4 species in reaction 2.000 Fe+++ -2.000 H+ 2.000 EDTA---- 2.000 H2O -41.2331 -41.4643 -41.6760 -41.9078 -42.1184 -42.3105 -42.4866 -42.6485 * logK= -41.676000 deltaH= -27.620000 kJ Fe2(OH)2++++ charge= 4 ion size= 0.0 A b= 0.0000 mole wt.= 145.7086 g 3 species in reaction 2.000 Fe+++ -2.000 H+ 2.000 H2O 3.7986 3.3265 2.8940 2.4205 1.9904 1.5978 1.2381 .9074 * logK= 2.894000 deltaH= -56.420000 kJ Fe2-DTPA- formula= Fe2(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 500.0043 g 2 species in reaction 2.000 Fe++ 1.000 DTPA----- -22.6200 -22.6200 -22.6200 -22.6200 -22.6200 -22.6200 -22.6200 -22.6200 * logK= -22.620000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe3(OH)4+++++ charge= 5 ion size= 0.0 A b= 0.0000 mole wt.= 235.5702 g 3 species in reaction 3.000 Fe+++ -4.000 H+ 4.000 H2O 7.3341 6.7881 6.2880 5.7405 5.2431 4.7892 4.3733 3.9908 * logK= 6.288000 deltaH= -65.240000 kJ Fe[Ethylenediamine]++ formula= Fe[C2H4(NH2)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 115.9456 g 2 species in reaction 1.000 Fe++ 1.000 EtDiAm -4.2600 -4.2600 -4.2600 -4.2600 -4.2600 -4.2600 -4.2600 -4.2600 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -4.260000 deltaH= 0.000000 kJ Fe[Ethylenediamine]2++ formula= Fe[C2H4(NH2)2]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 176.0442 g 2 species in reaction 1.000 Fe++ 2.000 EtDiAm -7.7300 -7.7300 -7.7300 -7.7300 -7.7300 -7.7300 -7.7300 -7.7300 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -7.730000 deltaH= 0.000000 kJ Fe[Ethylenediamine]3++ formula= Fe[C2H4(NH2)2]3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 236.1428 g 2 species in reaction 1.000 Fe++ 3.000 EtDiAm -10.1700 -10.1700 -10.1700 -10.1700 -10.1700 -10.1700 -10.1700 -10.1700 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -10.170000 deltaH= 0.000000 kJ FeBr++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 135.7510 g 2 species in reaction 1.000 Fe+++ 1.000 Br- -.1992 -.4083 -.6000 -.8098 -1.0004 -1.1743 -1.3337 -1.4803 * logK= -0.600000 deltaH= -25.000000 kJ FeCl+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 91.3000 g 2 species in reaction 1.000 Cl- 1.000 Fe++ .2000 .2000 .2000 .2000 .2000 .2000 .2000 .2000 * logK= 0.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeCl++ charge= 2 ion size= 5.0 A b= 0.0000 mole wt.= 91.3000 g 2 species in reaction 1.000 Fe+++ 1.000 Cl- -1.1112 -1.3037 -1.4800 -1.6730 -1.8484 -2.0084 -2.1550 -2.2899 * logK= -1.480000 deltaH= -23.000000 kJ FeClO4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 155.2976 g 2 species in reaction 1.000 Fe+++ 1.000 ClO4- -1.1500 -1.1500 -1.1500 -1.1500 -1.1500 -1.1500 -1.1500 -1.1500 * logK= -1.150000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeCrO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 171.8406 g 2 species in reaction 1.000 Fe+++ 1.000 CrO4-- -7.4255 -7.5427 -7.6500 -7.7675 -7.8742 -7.9716 -8.0609 -8.1430 * logK= -7.650000 deltaH= -14.000000 kJ FeEDTA- formula= Fe(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 344.0604 g 2 species in reaction 1.000 Fe+++ 1.000 EDTA---- -27.8364 -27.7443 -27.6600 -27.5677 -27.4838 -27.4073 -27.3372 -27.2727 * logK= -27.660000 deltaH= 11.000000 kJ FeEDTA-- formula= Fe(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 344.0604 g 2 species in reaction 1.000 Fe++ 1.000 EDTA---- -16.2665 -16.1327 -16.0100 -15.8757 -15.7537 -15.6424 -15.5404 -15.4466 * logK= -16.010000 deltaH= 16.000000 kJ FeEGTA- formula= Fe(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 432.1664 g 2 species in reaction 1.000 Fe+++ 1.000 EGTA---- -23.0600 -23.0600 -23.0600 -23.0600 -23.0600 -23.0600 -23.0600 -23.0600 * logK= -23.060000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeEGTA-- formula= Fe(C14H20N2O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 432.1664 g 2 species in reaction 1.000 EGTA---- 1.000 Fe++ -13.8467 -13.6710 -13.5100 -13.3338 -13.1737 -13.0276 -12.8937 -12.7706 * logK= -13.510000 deltaH= 21.000000 kJ FeF+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 74.8454 g 2 species in reaction 1.000 Fe++ 1.000 F- -1.2100 -1.2100 -1.2100 -1.2100 -1.2100 -1.2100 -1.2100 -1.2100 * logK= -1.210000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeF++ charge= 2 ion size= 5.0 A b= 0.0000 mole wt.= 74.8454 g 2 species in reaction 1.000 Fe+++ 1.000 F- -5.8797 -5.9633 -6.0400 -6.1239 -6.2002 -6.2697 -6.3335 -6.3921 * logK= -6.040000 deltaH= -10.000000 kJ FeF2+ charge= 1 ion size= 5.0 A b= 0.0000 mole wt.= 93.8438 g 2 species in reaction 1.000 Fe+++ 2.000 F- -10.3874 -10.5297 -10.6600 -10.8027 -10.9323 -11.0506 -11.1589 -11.2586 * logK= -10.660000 deltaH= -17.000000 kJ FeF3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 112.8422 g 2 species in reaction 1.000 Fe+++ 3.000 F- -13.2350 -13.4777 -13.7000 -13.9434 -14.1645 -14.3662 -14.5511 -14.7211 * logK= -13.700000 deltaH= -29.000000 kJ FeH-Citrate (aq) formula= FeH[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 245.9562 g 3 species in reaction 1.000 Fe++ 1.000 H+ 1.000 Citrate--- -10.1700 -10.1700 -10.1700 -10.1700 -10.1700 -10.1700 -10.1700 -10.1700 * logK= -10.170000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeH-Citrate+ formula= FeH[C3H5O(COO)3]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 245.9562 g 3 species in reaction 1.000 Fe+++ 1.000 H+ 1.000 Citrate--- -14.4000 -14.4000 -14.4000 -14.4000 -14.4000 -14.4000 -14.4000 -14.4000 * logK= -14.400000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeH-DTPA- formula= FeH(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 445.1652 g 3 species in reaction 1.000 Fe+++ 1.000 H+ 1.000 DTPA----- -35.2100 -35.2100 -35.2100 -35.2100 -35.2100 -35.2100 -35.2100 -35.2100 * logK= -35.210000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeH-DTPA-- formula= FeH(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 445.1652 g 3 species in reaction 1.000 Fe++ 1.000 H+ 1.000 DTPA----- -24.2900 -24.2900 -24.2900 -24.2900 -24.2900 -24.2900 -24.2900 -24.2900 * logK= -24.290000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeH-Glycine+++ formula= FeH[NH2CH2COO]+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 130.9140 g 3 species in reaction 1.000 Fe+++ 1.000 Glycine- 1.000 H+ -11.5000 -11.5000 -11.5000 -11.5000 -11.5000 -11.5000 -11.5000 -11.5000 * logK= -11.500000 deltaH= 0.000000 kJ FeH-HEDTA (aq) formula= FeH(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 332.0926 g 3 species in reaction 1.000 Fe++ 1.000 H+ 1.000 HEDTA--- -16.9071 -16.6477 -16.4100 -16.1499 -15.9135 -15.6978 -15.5002 -15.3185 * logK= -16.410000 deltaH= 31.000000 kJ FeH-Sal++ formula= FeH(OC6H4COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 192.9617 g 3 species in reaction 1.000 Fe+++ 1.000 H+ 1.000 Sal-- -18.7400 -18.7400 -18.7400 -18.7400 -18.7400 -18.7400 -18.7400 -18.7400 * logK= -18.740000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeH2BO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 116.6710 g 3 species in reaction 1.000 Fe+++ 1.000 H3BO3 -1.000 H+ 1.9100 1.9100 1.9100 1.9100 1.9100 1.9100 1.9100 1.9100 * logK= 1.910000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeH2PO4+ charge= 1 ion size= 5.4 A b= 0.0000 mole wt.= 152.8342 g 3 species in reaction 1.000 Fe++ 2.000 H+ 1.000 PO4--- -22.2730 -22.2730 -22.2730 -22.2730 -22.2730 -22.2730 -22.2730 -22.2730 * logK= -22.273000 deltaH= 0.000000 kJ FeH2PO4++ charge= 2 ion size= 5.4 A b= 0.0000 mole wt.= 152.8342 g 3 species in reaction 1.000 Fe+++ 2.000 H+ 1.000 PO4--- -23.8500 -23.8500 -23.8500 -23.8500 -23.8500 -23.8500 -23.8500 -23.8500 * logK= -23.850000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeHCO3+ charge= 1 ion size= 6.0 A b= 0.0000 mole wt.= 116.8641 g 3 species in reaction 1.000 Fe++ 1.000 H+ 1.000 CO3-- -11.4290 -11.4290 -11.4290 -11.4290 -11.4290 -11.4290 -11.4290 -11.4290 * logK= -11.429000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeHEDTA (aq) formula= FeH(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 345.0683 g 3 species in reaction 1.000 Fe+++ 1.000 H+ 1.000 EDTA---- -29.3528 -29.2574 -29.1700 -29.0743 -28.9874 -28.9081 -28.8354 -28.7686 * logK= -29.170000 deltaH= 11.400000 kJ FeHEDTA- formula= FeH(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 345.0683 g 3 species in reaction 1.000 Fe++ 1.000 H+ 1.000 EDTA---- -19.3707 -19.2033 -19.0500 -18.8822 -18.7297 -18.5905 -18.4630 -18.3458 * logK= -19.050000 deltaH= 20.000000 kJ FeHEGTA- formula= FeH(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 433.1743 g 3 species in reaction 1.000 EGTA---- 1.000 Fe++ 1.000 H+ -18.4100 -18.4100 -18.4100 -18.4100 -18.4100 -18.4100 -18.4100 -18.4100 * logK= -18.410000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeHNTA (aq) formula= FeH[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 244.9714 g 3 species in reaction 1.000 NTA--- 1.000 Fe++ 1.000 H+ -12.2900 -12.2900 -12.2900 -12.2900 -12.2900 -12.2900 -12.2900 -12.2900 * logK= -12.290000 deltaH= 0.000000 kJ FeHNTA+ formula= FeH[N(CH2COO)3]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 244.9714 g 3 species in reaction 1.000 Fe+++ 1.000 NTA--- 1.000 H+ -18.7200 -18.7200 -18.7200 -18.7200 -18.7200 -18.7200 -18.7200 -18.7200 * logK= -18.720000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeHPO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 151.8263 g 3 species in reaction 1.000 Fe++ 1.000 H+ 1.000 PO4--- -15.9750 -15.9750 -15.9750 -15.9750 -15.9750 -15.9750 -15.9750 -15.9750 * logK= -15.975000 deltaH= 0.000000 kJ FeHPO4+ charge= 1 ion size= 5.4 A b= 0.0000 mole wt.= 151.8263 g 3 species in reaction 1.000 Fe+++ 1.000 H+ 1.000 PO4--- -22.7747 -22.5191 -22.2850 -22.0287 -21.7958 -21.5833 -21.3886 -21.2095 * logK= -22.285000 deltaH= 30.543200 kJ FeHS+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 88.9189 g 2 species in reaction 1.000 Fe++ 1.000 HS- -5.6200 -5.6200 -5.6200 -5.6200 -5.6200 -5.6200 -5.6200 -5.6200 * logK= -5.620000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeHSeO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 183.8131 g 2 species in reaction 1.000 Fe+++ 1.000 HSeO3- -3.0192 -3.2283 -3.4200 -3.6298 -3.8204 -3.9943 -4.1537 -4.3003 * logK= -3.420000 deltaH= -25.000000 kJ FeNH3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 72.8774 g 3 species in reaction 1.000 Fe++ -1.000 H+ 1.000 NH4+ 8.5471 8.1781 7.8400 7.4699 7.1337 6.8269 6.5457 6.2872 * logK= 7.840000 deltaH= -44.100000 kJ FeNO2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 101.8525 g 2 species in reaction 1.000 Fe+++ 1.000 NO2- -3.2000 -3.2000 -3.2000 -3.2000 -3.2000 -3.2000 -3.2000 -3.2000 * logK= -3.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeNTA (aq) formula= Fe[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 243.9635 g 2 species in reaction 1.000 Fe+++ 1.000 NTA--- -17.6116 -17.7203 -17.8200 -17.9291 -18.0282 -18.1187 -18.2015 -18.2777 * logK= -17.820000 deltaH= -13.000000 kJ FeNTA- formula= Fe[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 243.9635 g 2 species in reaction 1.000 NTA--- 1.000 Fe++ -10.1800 -10.1800 -10.1800 -10.1800 -10.1800 -10.1800 -10.1800 -10.1800 * logK= -10.180000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeOH+ charge= 1 ion size= 5.0 A b= 0.0000 mole wt.= 72.8543 g 3 species in reaction 1.000 Fe++ -1.000 H+ 1.000 H2O 10.2919 9.8248 9.3970 8.9287 8.5032 8.1148 7.7590 7.4319 * logK= 9.397000 deltaH= -55.810000 kJ FeOH++ charge= 2 ion size= 5.0 A b= 0.0000 mole wt.= 72.8543 g 3 species in reaction 1.000 Fe+++ -1.000 H+ 1.000 H2O 2.4225 2.2124 2.0200 1.8094 1.6180 1.4434 1.2833 1.1362 * logK= 2.020000 deltaH= -25.100000 kJ FeOH-Citrate- formula= FeOH[C3H5O(COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 261.9556 g 4 species in reaction 1.000 Fe+++ -1.000 H+ 1.000 Citrate--- 1.000 H2O -1.7900 -1.7900 -1.7900 -1.7900 -1.7900 -1.7900 -1.7900 -1.7900 * logK= -1.790000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeOH-DTPA--- formula= FeOH(C14H18N3O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 461.1646 g 4 species in reaction 1.000 Fe+++ -1.000 H+ 1.000 DTPA----- 1.000 H2O -26.4500 -26.4500 -26.4500 -26.4500 -26.4500 -26.4500 -26.4500 -26.4500 * logK= -26.450000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeOH-DTPA---- formula= FeOH(C14H18N3O10)---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 461.1646 g 4 species in reaction 1.000 Fe++ -1.000 H+ 1.000 DTPA----- 1.000 H2O -11.4000 -11.4000 -11.4000 -11.4000 -11.4000 -11.4000 -11.4000 -11.4000 * logK= -11.400000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeOH-HEDTA- formula= FeOH(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 348.0920 g 4 species in reaction 1.000 Fe+++ -1.000 H+ 1.000 H2O 1.000 HEDTA--- -17.5400 -17.5400 -17.5400 -17.5400 -17.5400 -17.5400 -17.5400 -17.5400 * logK= -17.540000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeOHEDTA-- formula= FeOH(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 361.0677 g 4 species in reaction 1.000 Fe+++ -1.000 H+ 1.000 EDTA---- 1.000 H2O -19.7819 -19.8138 -19.8430 -19.8750 -19.9040 -19.9305 -19.9548 -19.9772 * logK= -19.843000 deltaH= -3.810000 kJ FeOHEDTA--- formula= FeOH(C10H12N2O8)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 361.0677 g 4 species in reaction 1.000 Fe++ -1.000 H+ 1.000 EDTA---- 1.000 H2O -6.5000 -6.5000 -6.5000 -6.5000 -6.5000 -6.5000 -6.5000 -6.5000 * logK= -6.500000 deltaH= 0.000000 kJ FeOHNTA- formula= FeOH[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 260.9708 g 4 species in reaction 1.000 Fe+++ 1.000 NTA--- -1.000 H+ 1.000 H2O -13.2500 -13.2500 -13.2500 -13.2500 -13.2500 -13.2500 -13.2500 -13.2500 * logK= -13.250000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeOHNTA-- formula= FeOH[N(CH2COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 260.9708 g 4 species in reaction 1.000 NTA--- 1.000 Fe++ -1.000 H+ 1.000 H2O 1.0660 1.0660 1.0660 1.0660 1.0660 1.0660 1.0660 1.0660 * logK= 1.066000 deltaH= 0.000000 kJ FeOHSCN+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 130.9360 g 4 species in reaction 1.000 Fe+++ -1.000 H+ 1.000 SCN- 1.000 H2O 10.3700 10.3700 10.3700 10.3700 10.3700 10.3700 10.3700 10.3700 * logK= 10.370000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeOHSO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 152.9165 g 4 species in reaction 1.000 Fe+++ -1.000 H+ 1.000 H2O 1.000 SO3-- -6.1800 -6.1800 -6.1800 -6.1800 -6.1800 -6.1800 -6.1800 -6.1800 * logK= -6.180000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeS2O3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 167.9732 g 2 species in reaction 1.000 Fe+++ 1.000 S2O3-- -3.2700 -3.2700 -3.2700 -3.2700 -3.2700 -3.2700 -3.2700 -3.2700 * logK= -3.270000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeSCN+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 113.9287 g 2 species in reaction 1.000 Fe++ 1.000 SCN- -1.3100 -1.3100 -1.3100 -1.3100 -1.3100 -1.3100 -1.3100 -1.3100 * logK= -1.310000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeSCN++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 113.9287 g 2 species in reaction 1.000 Fe+++ 1.000 SCN- -3.1038 -3.0653 -3.0300 -2.9914 -2.9563 -2.9243 -2.8950 -2.8680 * logK= -3.030000 deltaH= 4.600000 kJ FeSO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 135.9092 g 2 species in reaction 1.000 Fe+++ 1.000 SO3-- -8.2200 -8.2200 -8.2200 -8.2200 -8.2200 -8.2200 -8.2200 -8.2200 * logK= -8.220000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FeSO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 151.9086 g 2 species in reaction 1.000 Fe++ 1.000 SO4-- -2.2617 -2.3287 -2.3900 -2.4571 -2.5181 -2.5738 -2.6248 -2.6717 * logK= -2.390000 deltaH= -8.000000 kJ FeSO4+ charge= 1 ion size= 5.0 A b= 0.0000 mole wt.= 151.9086 g 2 species in reaction 1.000 Fe+++ 1.000 SO4-- -3.8492 -4.0583 -4.2500 -4.4598 -4.6504 -4.8243 -4.9837 -5.1303 * logK= -4.250000 deltaH= -25.000000 kJ Ga(OH)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 103.7376 g 3 species in reaction -2.000 H+ 2.000 H2O 1.000 Ga+++ 6.6940 6.6940 6.6940 6.6940 6.6940 6.6940 6.6940 6.6940 * logK= 6.694000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ga(OH)2NTA-- formula= Ga(OH)2[N(CH2COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 291.8541 g 4 species in reaction 1.000 NTA--- -2.000 H+ 2.000 H2O 1.000 Ga+++ -3.3300 -3.3300 -3.3300 -3.3300 -3.3300 -3.3300 -3.3300 -3.3300 * logK= -3.330000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ga(OH)4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 137.7522 g 3 species in reaction -4.000 H+ 4.000 H2O 1.000 Ga+++ 16.5880 16.5880 16.5880 16.5880 16.5880 16.5880 16.5880 16.5880 * logK= 16.588000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ga-(Oxalate)2- formula= Ga[(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 245.7622 g 2 species in reaction 2.000 Oxalate-- 1.000 Ga+++ -14.0200 -14.0200 -14.0200 -14.0200 -14.0200 -14.0200 -14.0200 -14.0200 * logK= -14.020000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ga-(Oxalate)3--- formula= Ga[(COO)2]3--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 333.7818 g 2 species in reaction 3.000 Oxalate-- 1.000 Ga+++ -19.0900 -19.0900 -19.0900 -19.0900 -19.0900 -19.0900 -19.0900 -19.0900 * logK= -19.090000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ga-Citrate (aq) formula= Ga[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 258.8243 g 2 species in reaction 1.000 Citrate--- 1.000 Ga+++ -11.9600 -11.9600 -11.9600 -11.9600 -11.9600 -11.9600 -11.9600 -11.9600 * logK= -11.960000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ga-DTPA-- formula= Ga(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 458.0333 g 2 species in reaction 1.000 DTPA----- 1.000 Ga+++ -27.5200 -27.5200 -27.5200 -27.5200 -27.5200 -27.5200 -27.5200 -27.5200 * logK= -27.520000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ga-Glutamate+ formula= Ga(C5H7NO4)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 214.8376 g 2 species in reaction 1.000 Glutamate-- 1.000 Ga+++ -12.4400 -12.4400 -12.4400 -12.4400 -12.4400 -12.4400 -12.4400 -12.4400 * logK= -12.440000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ga-Glycine++ formula= Ga[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 143.7821 g 2 species in reaction 1.000 Glycine- 1.000 Ga+++ -9.9800 -9.9800 -9.9800 -9.9800 -9.9800 -9.9800 -9.9800 -9.9800 * logK= -9.980000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ga-HEDTA (aq) formula= Ga(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 344.9607 g 2 species in reaction 1.000 Ga+++ 1.000 HEDTA--- -20.0400 -20.0400 -20.0400 -20.0400 -20.0400 -20.0400 -20.0400 -20.0400 * logK= -20.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ga-Oxalate+ formula= Ga[(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 157.7426 g 2 species in reaction 1.000 Oxalate-- 1.000 Ga+++ -7.6800 -7.6800 -7.6800 -7.6800 -7.6800 -7.6800 -7.6800 -7.6800 * logK= -7.680000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ga-Phthalate+ formula= Ga[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 233.8402 g 2 species in reaction 1.000 Phthalate-- 1.000 Ga+++ -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 * logK= -6.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ga-Sal+ formula= Ga(OC6H4COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 205.8298 g 2 species in reaction 1.000 Sal-- 1.000 Ga+++ -15.2800 -15.2800 -15.2800 -15.2800 -15.2800 -15.2800 -15.2800 -15.2800 * logK= -15.280000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GaBr++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 149.6270 g 2 species in reaction 1.000 Br- 1.000 Ga+++ -.6500 -.6500 -.6500 -.6500 -.6500 -.6500 -.6500 -.6500 * logK= -0.650000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GaCl++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 105.1760 g 2 species in reaction 1.000 Cl- 1.000 Ga+++ -.7600 -.7600 -.7600 -.7600 -.7600 -.7600 -.7600 -.7600 * logK= -0.760000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GaEDTA- formula= Ga(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 357.9364 g 2 species in reaction 1.000 EDTA---- 1.000 Ga+++ -24.2600 -24.2600 -24.2600 -24.2600 -24.2600 -24.2600 -24.2600 -24.2600 * logK= -24.260000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GaF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 88.7214 g 2 species in reaction 1.000 F- 1.000 Ga+++ -5.1197 -5.2033 -5.2800 -5.3639 -5.4402 -5.5097 -5.5735 -5.6321 * logK= -5.280000 deltaH= -10.000000 kJ GaF2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 107.7198 g 2 species in reaction 2.000 F- 1.000 Ga+++ -9.3400 -9.3400 -9.3400 -9.3400 -9.3400 -9.3400 -9.3400 -9.3400 * logK= -9.340000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GaF3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 126.7182 g 2 species in reaction 3.000 F- 1.000 Ga+++ -12.0800 -12.0800 -12.0800 -12.0800 -12.0800 -12.0800 -12.0800 -12.0800 * logK= -12.080000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GaH-DTPA- formula= GaH(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 459.0412 g 3 species in reaction 1.000 H+ 1.000 DTPA----- 1.000 Ga+++ -32.1100 -32.1100 -32.1100 -32.1100 -32.1100 -32.1100 -32.1100 -32.1100 * logK= -32.110000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GaH-Sal++ formula= GaH(OC6H4COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 206.8377 g 3 species in reaction 1.000 H+ 1.000 Sal-- 1.000 Ga+++ -16.2400 -16.2400 -16.2400 -16.2400 -16.2400 -16.2400 -16.2400 -16.2400 * logK= -16.240000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GaH2PO4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 166.7102 g 3 species in reaction 2.000 H+ 1.000 PO4--- 1.000 Ga+++ -21.6600 -21.6600 -21.6600 -21.6600 -21.6600 -21.6600 -21.6600 -21.6600 * logK= -21.660000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GaHEDTA (aq) formula= GaH(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 358.9443 g 3 species in reaction 1.000 H+ 1.000 EDTA---- 1.000 Ga+++ -25.5400 -25.5400 -25.5400 -25.5400 -25.5400 -25.5400 -25.5400 -25.5400 * logK= -25.540000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GaHPO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 165.7023 g 3 species in reaction 1.000 H+ 1.000 PO4--- 1.000 Ga+++ -20.7600 -20.7600 -20.7600 -20.7600 -20.7600 -20.7600 -20.7600 -20.7600 * logK= -20.760000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GaI++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 196.6274 g 2 species in reaction 1.000 I- 1.000 Ga+++ -.5500 -.5500 -.5500 -.5500 -.5500 -.5500 -.5500 -.5500 * logK= -0.550000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GaNO2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 115.7285 g 2 species in reaction 1.000 Ga+++ 1.000 NO2- -2.7200 -2.7200 -2.7200 -2.7200 -2.7200 -2.7200 -2.7200 -2.7200 * logK= -2.720000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GaNTA (aq) formula= Ga[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 257.8395 g 2 species in reaction 1.000 NTA--- 1.000 Ga+++ -15.6700 -15.6700 -15.6700 -15.6700 -15.6700 -15.6700 -15.6700 -15.6700 * logK= -15.670000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GaOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 86.7303 g 3 species in reaction -1.000 H+ 1.000 H2O 1.000 Ga+++ 3.2627 3.0719 2.8970 2.7056 2.5317 2.3730 2.2276 2.0938 * logK= 2.897000 deltaH= -22.810000 kJ GaOH-DTPA--- formula= GaOH(C14H18N3O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 475.0406 g 4 species in reaction -1.000 H+ 1.000 DTPA----- 1.000 H2O 1.000 Ga+++ -20.6000 -20.6000 -20.6000 -20.6000 -20.6000 -20.6000 -20.6000 -20.6000 * logK= -20.600000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GaOH-HEDTA- formula= GaOH(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 361.9680 g 4 species in reaction -1.000 H+ 1.000 H2O 1.000 Ga+++ 1.000 HEDTA--- -15.4400 -15.4400 -15.4400 -15.4400 -15.4400 -15.4400 -15.4400 -15.4400 * logK= -15.440000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GaOHEDTA-- formula= GaOH(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 374.9437 g 4 species in reaction -1.000 H+ 1.000 EDTA---- 1.000 H2O 1.000 Ga+++ -12.4030 -12.4030 -12.4030 -12.4030 -12.4030 -12.4030 -12.4030 -12.4030 * logK= -12.403000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GaOHNTA- formula= GaOH[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 274.8468 g 4 species in reaction 1.000 NTA--- -1.000 H+ 1.000 H2O 1.000 Ga+++ -11.1800 -11.1800 -11.1800 -11.1800 -11.1800 -11.1800 -11.1800 -11.1800 * logK= -11.180000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GaSCN++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 127.8047 g 2 species in reaction 1.000 SCN- 1.000 Ga+++ -2.3000 -2.3000 -2.3000 -2.3000 -2.3000 -2.3000 -2.3000 -2.3000 * logK= -2.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Gd(CO3)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 277.2684 g 2 species in reaction 1.000 Gd+++ 2.000 CO3-- -13.0400 -13.0400 -13.0400 -13.0400 -13.0400 -13.0400 -13.0400 -13.0400 * logK= -13.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Gd(HPO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 349.2086 g 3 species in reaction 1.000 Gd+++ 2.000 H+ 2.000 PO4--- -34.7200 -34.7200 -34.7200 -34.7200 -34.7200 -34.7200 -34.7200 -34.7200 * logK= -34.720000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Gd(NTA)2--- formula= Gd[N(CH2COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 533.4830 g 2 species in reaction 2.000 NTA--- 1.000 Gd+++ -22.9969 -22.7793 -22.5800 -22.3618 -22.1636 -21.9827 -21.8169 -21.6645 * logK= -22.580000 deltaH= 26.000000 kJ Gd(SO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 349.3732 g 2 species in reaction 1.000 Gd+++ 2.000 SO4-- -4.7190 -4.9700 -5.2000 -5.4517 -5.6805 -5.8892 -6.0805 -6.2563 * logK= -5.200000 deltaH= -30.000000 kJ Gd-(Acetate)2+ formula= Gd(CH3COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 275.3390 g 2 species in reaction 2.000 Acetate- 1.000 Gd+++ -4.3316 -4.4403 -4.5400 -4.6491 -4.7482 -4.8387 -4.9215 -4.9977 * logK= -4.540000 deltaH= -13.000000 kJ Gd-(Acetate)3 (aq) formula= Gd(CH3COO)3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 334.3835 g 2 species in reaction 3.000 Acetate- 1.000 Gd+++ -5.3155 -5.4327 -5.5400 -5.6575 -5.7642 -5.8616 -5.9509 -6.0330 * logK= -5.540000 deltaH= -14.000000 kJ Gd-(Benzoate)2+ formula= Gd(C6H5COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 399.4806 g 2 species in reaction 1.000 Gd+++ 2.000 Benzoate- -4.7800 -4.7800 -4.7800 -4.7800 -4.7800 -4.7800 -4.7800 -4.7800 * logK= -4.780000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Gd-(Formate)2+ formula= Gd[HCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 247.2854 g 2 species in reaction 1.000 Gd+++ 2.000 Formate- -2.9500 -2.9500 -2.9500 -2.9500 -2.9500 -2.9500 -2.9500 -2.9500 * logK= -2.950000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Gd-(iButyrate)2+ formula= Gd[(CH3)2CHCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 331.4462 g 2 species in reaction 2.000 iButyrate- 1.000 Gd+++ -4.2833 -4.4590 -4.6200 -4.7962 -4.9563 -5.1024 -5.2363 -5.3594 * logK= -4.620000 deltaH= -21.000000 kJ Gd-(Lactate)2+ formula= Gd[CH3CH(OH)COO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 335.3914 g 2 species in reaction 2.000 Lactate- 1.000 Gd+++ -6.2483 -6.1813 -6.1200 -6.0529 -5.9919 -5.9362 -5.8852 -5.8383 * logK= -6.120000 deltaH= 8.000000 kJ Gd-(Lactate)3 (aq) formula= Gd[CH3CH(OH)COO]3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 424.4621 g 2 species in reaction 3.000 Lactate- 1.000 Gd+++ -7.8607 -7.6933 -7.5400 -7.3722 -7.2197 -7.0805 -6.9530 -6.8358 * logK= -7.540000 deltaH= 20.000000 kJ Gd-(Malate)2- formula= Gd(C4H4O5)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 421.3952 g 2 species in reaction 1.000 Gd+++ 2.000 Malate-- -9.7200 -9.7200 -9.7200 -9.7200 -9.7200 -9.7200 -9.7200 -9.7200 * logK= -9.720000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Gd-(Malonate)2- formula= Gd[CH2(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 361.3428 g 2 species in reaction 2.000 Malonate-- 1.000 Gd+++ -8.3693 -8.5367 -8.6900 -8.8578 -9.0103 -9.1495 -9.2770 -9.3942 * logK= -8.690000 deltaH= -20.000000 kJ Gd-(Oxalate)2- formula= Gd[(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 333.2892 g 2 species in reaction 1.000 Gd+++ 2.000 Oxalate-- -10.8200 -10.8200 -10.8200 -10.8200 -10.8200 -10.8200 -10.8200 -10.8200 * logK= -10.820000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Gd-(Propionate)2+ formula= Gd(CH3CH2COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 303.3926 g 2 species in reaction 2.000 Propionate- 1.000 Gd+++ -4.4576 -4.5580 -4.6500 -4.7507 -4.8422 -4.9257 -5.0022 -5.0725 * logK= -4.650000 deltaH= -12.000000 kJ Gd-Acetate++ formula= Gd(CH3COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 216.2945 g 2 species in reaction 1.000 Acetate- 1.000 Gd+++ -2.5333 -2.5994 -2.6600 -2.7263 -2.7865 -2.8415 -2.8919 -2.9382 * logK= -2.660000 deltaH= -7.900000 kJ Gd-Benzoate++ formula= Gd(C6H5COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 278.3653 g 2 species in reaction 1.000 Gd+++ 1.000 Benzoate- -2.5905 -2.6633 -2.7300 -2.8030 -2.8693 -2.9299 -2.9853 -3.0363 * logK= -2.730000 deltaH= -8.700000 kJ Gd-Citrate (aq) formula= Gd[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 346.3513 g 2 species in reaction 1.000 Gd+++ 1.000 Citrate--- -9.3800 -9.3800 -9.3800 -9.3800 -9.3800 -9.3800 -9.3800 -9.3800 * logK= -9.380000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Gd-DTPA-- formula= Gd(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 545.5603 g 2 species in reaction 1.000 Gd+++ 1.000 DTPA----- -26.1071 -25.8477 -25.6100 -25.3499 -25.1135 -24.8978 -24.7002 -24.5185 * logK= -25.610000 deltaH= 31.000000 kJ Gd-Formate++ formula= Gd[HCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 202.2677 g 2 species in reaction 1.000 Gd+++ 1.000 Formate- -1.9900 -1.9900 -1.9900 -1.9900 -1.9900 -1.9900 -1.9900 -1.9900 * logK= -1.990000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Gd-Glutarate+ formula= Gd[C3H6(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 287.3500 g 2 species in reaction 1.000 Gd+++ 1.000 Glutarate-- -4.2235 -4.3573 -4.4800 -4.6143 -4.7363 -4.8476 -4.9496 -5.0434 * logK= -4.480000 deltaH= -16.000000 kJ Gd-Glycine++ formula= Gd[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 231.3091 g 2 species in reaction 1.000 Glycine- 1.000 Gd+++ -4.0500 -4.0500 -4.0500 -4.0500 -4.0500 -4.0500 -4.0500 -4.0500 * logK= -4.050000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Gd-HEDTA (aq) formula= Gd(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 432.4877 g 2 species in reaction 1.000 Gd+++ 1.000 HEDTA--- -17.5890 -17.3547 -17.1400 -16.9050 -16.6916 -16.4967 -16.3182 -16.1541 * logK= -17.140000 deltaH= 28.000000 kJ Gd-iButyrate++ formula= Gd[(CH3)2CHCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 244.3481 g 2 species in reaction 1.000 iButyrate- 1.000 Gd+++ -2.4555 -2.5727 -2.6800 -2.7975 -2.9042 -3.0016 -3.0909 -3.1730 * logK= -2.680000 deltaH= -14.000000 kJ Gd-iPhthalate+ formula= Gd[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 321.3672 g 2 species in reaction 1.000 iPhthalate-- 1.000 Gd+++ -3.8276 -3.9280 -4.0200 -4.1207 -4.2122 -4.2957 -4.3722 -4.4425 * logK= -4.020000 deltaH= -12.000000 kJ Gd-Lactate++ formula= Gd[CH3CH(OH)COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 246.3207 g 2 species in reaction 1.000 Lactate- 1.000 Gd+++ -3.6931 -3.6236 -3.5600 -3.4904 -3.4271 -3.3693 -3.3164 -3.2677 * logK= -3.560000 deltaH= 8.300000 kJ Gd-Malate+ formula= Gd(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 289.3226 g 2 species in reaction 1.000 Gd+++ 1.000 Malate-- -6.0500 -6.0500 -6.0500 -6.0500 -6.0500 -6.0500 -6.0500 -6.0500 * logK= -6.050000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Gd-Malonate+ formula= Gd[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 259.2964 g 2 species in reaction 1.000 Malonate-- 1.000 Gd+++ -5.4176 -5.5180 -5.6100 -5.7107 -5.8022 -5.8857 -5.9622 -6.0325 * logK= -5.610000 deltaH= -12.000000 kJ Gd-Oxalate+ formula= Gd[(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 245.2696 g 2 species in reaction 1.000 Gd+++ 1.000 Oxalate-- -6.3900 -6.3900 -6.3900 -6.3900 -6.3900 -6.3900 -6.3900 -6.3900 * logK= -6.390000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Gd-Phthalate+ formula= Gd[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 321.3672 g 2 species in reaction 1.000 Gd+++ 1.000 Phthalate-- -4.9100 -4.9100 -4.9100 -4.9100 -4.9100 -4.9100 -4.9100 -4.9100 * logK= -4.910000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Gd-Propionate++ formula= Gd(CH3CH2COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 230.3213 g 2 species in reaction 1.000 Propionate- 1.000 Gd+++ -2.5925 -2.6695 -2.7400 -2.8172 -2.8873 -2.9514 -3.0100 -3.0639 * logK= -2.740000 deltaH= -9.200000 kJ Gd-Succinate+ formula= Gd[(CH2)2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 273.3232 g 2 species in reaction 1.000 Gd+++ 1.000 Succinate-- -4.5176 -4.6180 -4.7100 -4.8107 -4.9022 -4.9857 -5.0622 -5.1325 * logK= -4.710000 deltaH= -12.000000 kJ Gd-Tartrate+ formula= Gd(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 305.3220 g 2 species in reaction 1.000 Tartrate-- 1.000 Gd+++ -5.4400 -5.4400 -5.4400 -5.4400 -5.4400 -5.4400 -5.4400 -5.4400 * logK= -5.440000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GdCl++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 192.7030 g 2 species in reaction 1.000 Cl- 1.000 Gd+++ -.3000 -.3000 -.3000 -.3000 -.3000 -.3000 -.3000 -.3000 * logK= -0.300000 deltaH= 0.000000 kJ GdCO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 217.2592 g 2 species in reaction 1.000 Gd+++ 1.000 CO3-- -7.6400 -7.6400 -7.6400 -7.6400 -7.6400 -7.6400 -7.6400 -7.6400 * logK= -7.640000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GdEDTA- formula= Gd(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 445.4634 g 2 species in reaction 1.000 Gd+++ 1.000 EDTA---- -20.0158 -19.9606 -19.9100 -19.8546 -19.8043 -19.7584 -19.7163 -19.6776 * logK= -19.910000 deltaH= 6.600000 kJ GdEGTA- formula= Gd(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 533.5694 g 2 species in reaction 1.000 EGTA---- 1.000 Gd+++ -19.8600 -19.8600 -19.8600 -19.8600 -19.8600 -19.8600 -19.8600 -19.8600 * logK= -19.860000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GdF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 176.2484 g 2 species in reaction 1.000 Gd+++ 1.000 F- -4.1625 -4.2395 -4.3100 -4.3872 -4.4573 -4.5214 -4.5800 -4.6339 * logK= -4.310000 deltaH= -9.200000 kJ GdF2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 195.2468 g 2 species in reaction 1.000 Gd+++ 2.000 F- -7.2000 -7.2000 -7.2000 -7.2000 -7.2000 -7.2000 -7.2000 -7.2000 * logK= -7.200000 deltaH= 0.000000 kJ GdH-(Malonate)2 (aq) formula= GdH[CH2(COO)2]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 362.3507 g 3 species in reaction 2.000 Malonate-- 1.000 Gd+++ 1.000 H+ -12.3014 -12.4520 -12.5900 -12.7410 -12.8783 -13.0035 -13.1183 -13.2238 * logK= -12.590000 deltaH= -18.000000 kJ GdH-DTPA- formula= GdH(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 546.5682 g 3 species in reaction 1.000 Gd+++ 1.000 H+ 1.000 DTPA----- -28.4300 -28.4300 -28.4300 -28.4300 -28.4300 -28.4300 -28.4300 -28.4300 * logK= -28.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GdH-Glycine+++ formula= GdH[NH2CH2COO]+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 232.3170 g 3 species in reaction 1.000 Glycine- 1.000 Gd+++ 1.000 H+ -10.5000 -10.5000 -10.5000 -10.5000 -10.5000 -10.5000 -10.5000 -10.5000 * logK= -10.500000 deltaH= 0.000000 kJ GdH-Malonate++ formula= GdH[CH2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 260.3043 g 3 species in reaction 1.000 Malonate-- 1.000 Gd+++ 1.000 H+ -7.6072 -7.6869 -7.7600 -7.8400 -7.9126 -7.9789 -8.0397 -8.0956 * logK= -7.760000 deltaH= -9.530000 kJ GdH-Sal++ formula= GdH(OC6H4COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 294.3647 g 3 species in reaction 1.000 Gd+++ 1.000 H+ 1.000 Sal-- -16.7803 -16.4984 -16.2400 -15.9572 -15.7003 -15.4658 -15.2509 -15.0534 * logK= -16.240000 deltaH= 33.700000 kJ GdH-Succinate++ formula= GdH[(CH2)2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 274.3311 g 3 species in reaction 1.000 Gd+++ 1.000 H+ 1.000 Succinate-- -8.1100 -8.1100 -8.1100 -8.1100 -8.1100 -8.1100 -8.1100 -8.1100 * logK= -8.110000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GdH2-(Sal)2+ formula= GdH2(OC6H4COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 431.4794 g 3 species in reaction 1.000 Gd+++ 2.000 H+ 2.000 Sal-- -33.3218 -32.7729 -32.2700 -31.7195 -31.2194 -30.7629 -30.3447 -29.9601 * logK= -32.270000 deltaH= 65.600000 kJ GdH2-(Succinate)2+ formula= GdH2[(CH2)2(COO)2]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 391.4122 g 3 species in reaction 1.000 Gd+++ 2.000 H+ 2.000 Succinate-- -15.4500 -15.4500 -15.4500 -15.4500 -15.4500 -15.4500 -15.4500 -15.4500 * logK= -15.450000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GdH2PO4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 254.2372 g 3 species in reaction 1.000 Gd+++ 2.000 H+ 1.000 PO4--- -22.3130 -22.3130 -22.3130 -22.3130 -22.3130 -22.3130 -22.3130 -22.3130 * logK= -22.313000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GdHCO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 218.2671 g 3 species in reaction 1.000 Gd+++ 1.000 H+ 1.000 CO3-- -12.9800 -12.9800 -12.9800 -12.9800 -12.9800 -12.9800 -12.9800 -12.9800 * logK= -12.980000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GdHEDTA (aq) formula= GdH(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 446.4713 g 3 species in reaction 1.000 Gd+++ 1.000 H+ 1.000 EDTA---- -21.4200 -21.4200 -21.4200 -21.4200 -21.4200 -21.4200 -21.4200 -21.4200 * logK= -21.420000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GdHPO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 253.2293 g 3 species in reaction 1.000 Gd+++ 1.000 H+ 1.000 PO4--- -18.2850 -18.2850 -18.2850 -18.2850 -18.2850 -18.2850 -18.2850 -18.2850 * logK= -18.285000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GdNO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 219.2549 g 2 species in reaction 1.000 Gd+++ 1.000 NO3- -.6100 -.6100 -.6100 -.6100 -.6100 -.6100 -.6100 -.6100 * logK= -0.610000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GdNTA (aq) formula= Gd[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 345.3665 g 2 species in reaction 1.000 NTA--- 1.000 Gd+++ -13.3181 -13.2930 -13.2700 -13.2448 -13.2220 -13.2011 -13.1820 -13.1644 * logK= -13.270000 deltaH= 3.000000 kJ GdOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 174.2573 g 3 species in reaction 1.000 Gd+++ -1.000 H+ 1.000 H2O 7.7870 7.7870 7.7870 7.7870 7.7870 7.7870 7.7870 7.7870 * logK= 7.787000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GdOH-HEDTA- formula= GdOH(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 449.4950 g 4 species in reaction 1.000 Gd+++ -1.000 H+ 1.000 H2O 1.000 HEDTA--- -7.1200 -7.1200 -7.1200 -7.1200 -7.1200 -7.1200 -7.1200 -7.1200 * logK= -7.120000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GdOHNTA- formula= GdOH[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 362.3738 g 4 species in reaction 1.000 NTA--- 1.000 Gd+++ -1.000 H+ 1.000 H2O -5.8150 -5.8150 -5.8150 -5.8150 -5.8150 -5.8150 -5.8150 -5.8150 * logK= -5.815000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GdPO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 252.2214 g 2 species in reaction 1.000 Gd+++ 1.000 PO4--- -12.1900 -12.1900 -12.1900 -12.1900 -12.1900 -12.1900 -12.1900 -12.1900 * logK= -12.190000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GdSCN++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 215.3317 g 2 species in reaction 1.000 Gd+++ 1.000 SCN- -1.0200 -1.0200 -1.0200 -1.0200 -1.0200 -1.0200 -1.0200 -1.0200 * logK= -1.020000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GdSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 253.3116 g 2 species in reaction 1.000 Gd+++ 1.000 SO4-- -3.3393 -3.5067 -3.6600 -3.8278 -3.9803 -4.1195 -4.2470 -4.3642 * logK= -3.660000 deltaH= -20.000000 kJ H-Acetate (aq) formula= CH3COOH charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 60.0524 g 2 species in reaction 1.000 Acetate- 1.000 H+ -4.7504 -4.7539 -4.7570 -4.7604 -4.7636 -4.7664 -4.7690 -4.7714 * logK= -4.757000 deltaH= -0.410000 kJ H-Benzoate (aq) formula= C6H5COOH charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 122.1232 g 2 species in reaction 1.000 H+ 1.000 Benzoate- -4.2094 -4.2055 -4.2020 -4.1981 -4.1946 -4.1914 -4.1885 -4.1858 * logK= -4.202000 deltaH= 0.460000 kJ H-Butyrate (aq) formula= CH3CH2CH2COOH charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 88.1060 g 2 species in reaction 1.000 H+ 1.000 Butyrate- -4.7731 -4.7965 -4.8180 -4.8415 -4.8628 -4.8823 -4.9002 -4.9166 * logK= -4.818000 deltaH= -2.800000 kJ H-Citrate-- formula= H[C3H5O(COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 190.1092 g 2 species in reaction 1.000 H+ 1.000 Citrate--- -6.3431 -6.3707 -6.3960 -6.4237 -6.4489 -6.4718 -6.4929 -6.5122 * logK= -6.396000 deltaH= -3.300000 kJ H-DTPA---- formula= H(C14H18N3O10)---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 389.3182 g 2 species in reaction 1.000 H+ 1.000 DTPA----- -12.2491 -11.9730 -11.7200 -11.4431 -11.1915 -10.9619 -10.7515 -10.5580 * logK= -11.720000 deltaH= 33.000000 kJ H-Formate (aq) formula= HCOOH charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 46.0256 g 2 species in reaction 1.000 H+ 1.000 Formate- -3.7414 -3.7428 -3.7440 -3.7453 -3.7466 -3.7477 -3.7487 -3.7496 * logK= -3.744000 deltaH= -0.160000 kJ H-Glutamate- formula= H(C5H7NO4)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 146.1225 g 2 species in reaction 1.000 H+ 1.000 Glutamate-- -10.6014 -10.2666 -9.9600 -9.6243 -9.3194 -9.0411 -8.7861 -8.5516 * logK= -9.960000 deltaH= 40.000000 kJ H-Glutarate- formula= H[C3H6(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 131.1079 g 2 species in reaction 1.000 H+ 1.000 Glutarate-- -5.3819 -5.4028 -5.4220 -5.4430 -5.4620 -5.4794 -5.4954 -5.5100 * logK= -5.422000 deltaH= -2.500000 kJ H-Glycine (aq) formula= NH2CH2COOH charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 75.0670 g 2 species in reaction 1.000 Glycine- 1.000 H+ -10.4891 -10.1180 -9.7780 -9.4058 -9.0677 -8.7591 -8.4764 -8.2164 * logK= -9.778000 deltaH= 44.350000 kJ H-HEDTA-- formula= C10H16N2O7-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 276.2456 g 2 species in reaction 1.000 H+ 1.000 HEDTA--- -10.8529 -10.6270 -10.4200 -10.1934 -9.9876 -9.7997 -9.6276 -9.4693 * logK= -10.420000 deltaH= 27.000000 kJ H-iButyrate (aq) formula= (CH3)2CHCOOH charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 88.1060 g 2 species in reaction 1.000 iButyrate- 1.000 H+ -4.7977 -4.8245 -4.8490 -4.8759 -4.9003 -4.9225 -4.9429 -4.9617 * logK= -4.849000 deltaH= -3.200000 kJ H-iPhthalate- formula= H[C6H4(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 165.1251 g 2 species in reaction 1.000 iPhthalate-- 1.000 H+ -4.4840 -4.4923 -4.5000 -4.5084 -4.5160 -4.5230 -4.5293 -4.5352 * logK= -4.500000 deltaH= -1.000000 kJ H-iValerate (aq) formula= (CH3)2CHCH2COOH charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 102.1328 g 2 species in reaction 1.000 H+ 1.000 iValerate- -4.7020 -4.7432 -4.7810 -4.8224 -4.8600 -4.8943 -4.9257 -4.9546 * logK= -4.781000 deltaH= -4.930000 kJ H-Lactate (aq) formula= CH3CH(OH)COOH charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 90.0786 g 2 species in reaction 1.000 Lactate- 1.000 H+ -3.8547 -3.8575 -3.8600 -3.8628 -3.8653 -3.8676 -3.8697 -3.8716 * logK= -3.860000 deltaH= -0.330000 kJ H-Malate- formula= H(C4H4O5)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 133.0805 g 2 species in reaction 1.000 H+ 1.000 Malate-- -5.0778 -5.0878 -5.0970 -5.1071 -5.1162 -5.1246 -5.1322 -5.1393 * logK= -5.097000 deltaH= -1.200000 kJ H-Malonate- formula= H[CH2(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 103.0543 g 2 species in reaction 1.000 Malonate-- 1.000 H+ -5.6170 -5.6582 -5.6960 -5.7374 -5.7750 -5.8093 -5.8407 -5.8696 * logK= -5.696000 deltaH= -4.930000 kJ H-Oxalate- formula= H[(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 89.0275 g 2 species in reaction 1.000 H+ 1.000 Oxalate-- -4.1600 -4.2153 -4.2660 -4.3215 -4.3719 -4.4179 -4.4600 -4.4987 * logK= -4.266000 deltaH= -6.610000 kJ H-Phthalate- formula= H[C6H4(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 165.1251 g 2 species in reaction 1.000 H+ 1.000 Phthalate-- -5.3773 -5.3949 -5.4110 -5.4286 -5.4446 -5.4592 -5.4726 -5.4849 * logK= -5.411000 deltaH= -2.100000 kJ H-Propionate (aq) formula= H(CH3CH2COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 74.0792 g 2 species in reaction 1.000 Propionate- 1.000 H+ -4.8620 -4.8683 -4.8740 -4.8803 -4.8860 -4.8912 -4.8960 -4.9004 * logK= -4.874000 deltaH= -0.750000 kJ H-Sal- formula= H(OC6H4COO)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 137.1147 g 2 species in reaction 1.000 H+ 1.000 Sal-- -14.2724 -13.9737 -13.7000 -13.4004 -13.1282 -12.8798 -12.6523 -12.4430 * logK= -13.700000 deltaH= 35.700000 kJ H-Succinate- formula= H[(CH2)2(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 117.0811 g 2 species in reaction 1.000 H+ 1.000 Succinate-- -5.6347 -5.6354 -5.6360 -5.6367 -5.6373 -5.6378 -5.6383 -5.6388 * logK= -5.636000 deltaH= -0.080000 kJ H-Tartrate- formula= C4H5O6- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 149.0799 g 2 species in reaction 1.000 Tartrate-- 1.000 H+ -4.3780 -4.3717 -4.3660 -4.3597 -4.3540 -4.3488 -4.3440 -4.3396 * logK= -4.366000 deltaH= 0.750000 kJ H-Valerate (aq) formula= CH3(CH2)3COOH charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 102.1328 g 2 species in reaction 1.000 Valerate- 1.000 H+ -4.7981 -4.8215 -4.8430 -4.8665 -4.8878 -4.9073 -4.9252 -4.9416 * logK= -4.843000 deltaH= -2.800000 kJ H10(BO3)4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 245.3118 g 2 species in reaction 4.000 H3BO3 -2.000 H+ 15.8401 15.4184 15.0320 14.6091 14.2248 13.8741 13.5528 13.2574 * logK= 15.032000 deltaH= -50.400000 kJ H2-Citrate- formula= H2[C3H5O(COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 191.1171 g 2 species in reaction 2.000 H+ 1.000 Citrate--- -11.1362 -11.1470 -11.1570 -11.1679 -11.1778 -11.1869 -11.1952 -11.2028 * logK= -11.157000 deltaH= -1.300000 kJ H2-DTPA--- formula= H2(C14H18N3O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 390.3261 g 2 species in reaction 2.000 H+ 1.000 DTPA----- -21.9817 -21.5633 -21.1800 -20.7604 -20.3792 -20.0313 -19.7126 -19.4194 * logK= -21.180000 deltaH= 50.000000 kJ H2-Glutamate (aq) formula= C5H9NO4 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 147.1304 g 2 species in reaction 2.000 H+ 1.000 Glutamate-- -14.9495 -14.5896 -14.2600 -13.8992 -13.5713 -13.2721 -12.9980 -12.7459 * logK= -14.260000 deltaH= 43.000000 kJ H2-Glutarate (aq) formula= C3H6(COOH)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 132.1158 g 2 species in reaction 2.000 H+ 1.000 Glutarate-- -9.7189 -9.7440 -9.7670 -9.7922 -9.8150 -9.8359 -9.8550 -9.8726 * logK= -9.767000 deltaH= -3.000000 kJ H2-Glycine+ formula= H2[NH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 76.0749 g 2 species in reaction 1.000 Glycine- 2.000 H+ -12.9032 -12.4987 -12.1280 -11.7223 -11.3536 -11.0172 -10.7090 -10.4255 * logK= -12.128000 deltaH= 48.350000 kJ H2-HEDTA- formula= C10H17N2O7- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 277.2535 g 2 species in reaction 2.000 H+ 1.000 HEDTA--- -16.8553 -16.5290 -16.2300 -15.9027 -15.6054 -15.3340 -15.0854 -14.8568 * logK= -16.230000 deltaH= 39.000000 kJ H2-iPhthalate (aq) formula= C6H4(COOH)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 166.1330 g 2 species in reaction 1.000 iPhthalate-- 2.000 H+ -7.9840 -7.9923 -8.0000 -8.0084 -8.0160 -8.0230 -8.0293 -8.0352 * logK= -8.000000 deltaH= -1.000000 kJ H2-Malate (aq) formula= C4H6O5 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 134.0884 g 2 species in reaction 2.000 H+ 1.000 Malate-- -8.5817 -8.5683 -8.5560 -8.5426 -8.5304 -8.5192 -8.5090 -8.4997 * logK= -8.556000 deltaH= 1.600000 kJ H2-Malonate (aq) formula= CH2(COOH)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 104.0622 g 2 species in reaction 1.000 Malonate-- 2.000 H+ -8.4665 -8.5064 -8.5430 -8.5830 -8.6194 -8.6526 -8.6830 -8.7110 * logK= -8.543000 deltaH= -4.770000 kJ H2-Oxalate formula= (COOH)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 90.0354 g 2 species in reaction 2.000 H+ 1.000 Oxalate-- -5.3619 -5.4423 -5.5160 -5.5966 -5.6699 -5.7368 -5.7980 -5.8544 * logK= -5.516000 deltaH= -9.610000 kJ H2-Phthalate (aq) formula= C6H4(COOH)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 166.1330 g 2 species in reaction 2.000 H+ 1.000 Phthalate-- -8.2856 -8.3250 -8.3610 -8.4004 -8.4363 -8.4690 -8.4989 -8.5265 * logK= -8.361000 deltaH= -4.700000 kJ H2-Sal (aq) formula= HOC6H4COOH charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 138.1226 g 2 species in reaction 2.000 H+ 1.000 Sal-- -17.2925 -16.9687 -16.6720 -16.3472 -16.0522 -15.7829 -15.5362 -15.3093 * logK= -16.672000 deltaH= 38.700000 kJ H2-Succinate (aq) formula= (CH2)2(COOH)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 118.0890 g 2 species in reaction 2.000 H+ 1.000 Succinate-- -9.8882 -9.8646 -9.8430 -9.8193 -9.7978 -9.7782 -9.7602 -9.7437 * logK= -9.843000 deltaH= 2.820000 kJ H2-Tartrate (aq) formula= C4H6O6 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 150.0878 g 2 species in reaction 1.000 Tartrate-- 2.000 H+ -7.4605 -7.4300 -7.4020 -7.3714 -7.3435 -7.3181 -7.2949 -7.2735 * logK= -7.402000 deltaH= 3.650000 kJ H2[Ethylenediamine]++ formula= H2[C2H4(NH2)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 62.1144 g 2 species in reaction 2.000 H+ 1.000 EtDiAm -18.2896 -17.4997 -16.7760 -15.9838 -15.2641 -14.6073 -14.0055 -13.4521 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -16.776000 deltaH= 94.400000 kJ H2AsO3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 124.9356 g 2 species in reaction 1.000 H3AsO3 -1.000 H+ 9.6129 9.3817 9.1700 8.9382 8.7276 8.5355 8.3594 8.1975 * logK= 9.170000 deltaH= -27.620000 kJ H2AsO4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 140.9350 g 2 species in reaction 2.000 H+ 1.000 AsO4--- -19.1302 -18.9527 -18.7900 -18.6119 -18.4501 -18.3025 -18.1672 -18.0428 * logK= -18.790000 deltaH= 21.220000 kJ H2BO3- charge= -1 ion size= 2.5 A b= 0.0000 mole wt.= 60.8240 g 2 species in reaction 1.000 H3BO3 -1.000 H+ 9.4524 9.3431 9.2409 9.1258 9.0172 8.9137 8.8143 8.7179 * logK= 9.236000 deltaH= -13.000000 kJ * analytic data = 24.3919 .012078 -1343.9 -13.2258 0 0 0 H2CO3* (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 62.0250 g 2 species in reaction 2.000 H+ 1.000 CO3-- -17.2071 -16.8974 -16.6807 -16.5191 -16.4433 -16.4365 -16.4859 -16.5819 * logK= -16.681000 deltaH= 32.000000 kJ * analytic data = 464.1965 .09344813 -26986.16 -165.75951 0 2248628.9 0 H2CrO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 118.0094 g 2 species in reaction 1.000 CrO4-- 2.000 H+ -5.6847 -6.0110 -6.3100 -6.6373 -6.9346 -7.2060 -7.4546 -7.6832 * logK= -6.310000 deltaH= -39.000000 kJ H2EDTA-- formula= H2(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 290.2292 g 2 species in reaction 2.000 H+ 1.000 EDTA---- -17.7982 -17.4970 -17.2210 -16.9189 -16.6444 -16.3939 -16.1644 -15.9534 * logK= -17.221000 deltaH= 36.000000 kJ H2EGTA-- formula= H2(C14H20N2O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 378.3352 g 2 species in reaction 1.000 EGTA---- 2.000 H+ -20.2676 -19.8826 -19.5300 -19.1440 -18.7933 -18.4732 -18.1800 -17.9103 * logK= -19.530000 deltaH= 46.000000 kJ H2Fe(CN)6-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 213.9690 g 3 species in reaction 2.000 H+ 1.000 Fe++ 6.000 CN- -47.7540 -44.8085 -42.1100 -39.1562 -36.4724 -34.0232 -31.7792 -29.7157 * logK= -42.110000 deltaH= 352.000000 kJ H2Mo6O21---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 913.6432 g 3 species in reaction 8.000 H+ 6.000 MoO4-- -3.000 H2O -54.6654 -52.8412 -51.1700 -49.3406 -47.6785 -46.1617 -44.7720 -43.4940 * logK= -51.170000 deltaH= 218.000000 kJ H2NTA- formula= H2[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 190.1323 g 2 species in reaction 1.000 NTA--- 2.000 H+ -13.5286 -13.3780 -13.2400 -13.0890 -12.9517 -12.8265 -12.7117 -12.6062 * logK= -13.240000 deltaH= 18.000000 kJ H2PO4- charge= -1 ion size= 5.4 A b= 0.0000 mole wt.= 96.9872 g 2 species in reaction 2.000 H+ 1.000 PO4--- -19.8616 -19.7110 -19.5730 -19.4220 -19.2847 -19.1595 -19.0447 -18.9392 * logK= -19.573000 deltaH= 18.000000 kJ H2S (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 34.0798 g 2 species in reaction 1.000 H+ 1.000 HS- -7.3518 -7.1247 -6.9417 -6.7728 -6.6520 -6.5731 -6.5308 -6.5207 * logK= -7.020000 deltaH= 22.000000 kJ * analytic data = -11.17 .02386 3279 0 0 0 0 H2S2O3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 114.1420 g 2 species in reaction 1.000 S2O3-- 2.000 H+ -2.2000 -2.2000 -2.2000 -2.2000 -2.2000 -2.2000 -2.2000 -2.2000 * logK= -2.200000 deltaH= 0.000000 kJ H2Se charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 80.9758 g 2 species in reaction 1.000 HSe- 1.000 H+ -3.8371 -3.8647 -3.8900 -3.9177 -3.9429 -3.9658 -3.9869 -4.0062 * logK= -3.890000 deltaH= -3.300000 kJ H2SeO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 128.9740 g 2 species in reaction 1.000 H+ 1.000 HSeO3- -2.5306 -2.5825 -2.6300 -2.6820 -2.7293 -2.7724 -2.8120 -2.8483 * logK= -2.630000 deltaH= -6.200000 kJ H2SiO4-- charge= -2 ion size= 5.4 A b= 0.0000 mole wt.= 94.0989 g 2 species in reaction -2.000 H+ 1.000 H4SiO4 23.7619 22.6066 21.6173 20.6213 19.8067 19.1498 18.6308 18.2329 * logK= 23.040000 deltaH= -61.000000 kJ * analytic data = 39.478 -.065927 -12355.1 0 0 0 0 H2SO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 82.0780 g 2 species in reaction 2.000 H+ 1.000 SO3-- -8.6969 -8.8759 -9.0400 -9.2196 -9.3827 -9.5316 -9.6681 -9.7935 * logK= -9.040000 deltaH= -21.400000 kJ H2V10O28---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 959.4140 g 3 species in reaction 16.000 H+ -12.000 H2O 10.000 HVO4-- -145.7000 -145.7000 -145.7000 -145.7000 -145.7000 -145.7000 -145.7000 -145.7000 * logK= -145.700000 deltaH= 0.000000 kJ H2V2O4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 167.8964 g 3 species in reaction 2.000 VO++ -2.000 H+ 2.000 H2O 7.5537 7.1051 6.6940 6.2440 5.8352 5.4621 5.1203 4.8060 * logK= 6.694000 deltaH= -53.620000 kJ H2V2O7-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 215.8946 g 3 species in reaction 2.000 H+ -1.000 H2O 2.000 HVO4-- -20.5055 -20.1373 -19.8000 -19.4308 -19.0953 -18.7892 -18.5087 -18.2507 * logK= -19.800000 deltaH= 44.000000 kJ H2VO4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 116.9549 g 2 species in reaction 1.000 H+ 1.000 HVO4-- -8.8622 -8.8037 -8.7500 -8.6913 -8.6379 -8.5892 -8.5446 -8.5035 * logK= -8.750000 deltaH= 7.000000 kJ H2W12O42---------- charge=-10 ion size= 0.0 A b= 0.0000 mole wt.= 2880.1906 g 3 species in reaction 12.000 WO4-- 14.000 H+ -6.000 H2O -120.1904 -115.6551 -111.5000 -106.9518 -102.8194 -99.0482 -95.5930 -92.4155 * logK= -111.500000 deltaH= 542.000000 kJ H2W6O22------ charge= -6 ion size= 0.0 A b= 0.0000 mole wt.= 1457.1026 g 3 species in reaction 6.000 WO4-- 6.000 H+ -2.000 H2O -52.1039 -50.1709 -48.4000 -46.4616 -44.7003 -43.0931 -41.6204 -40.2662 * logK= -48.400000 deltaH= 231.000000 kJ H3-Citrate (aq) formula= HOC(COOH)(CH2COOH)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 192.1250 g 2 species in reaction 3.000 H+ 1.000 Citrate--- -14.3283 -14.3057 -14.2850 -14.2623 -14.2418 -14.2230 -14.2058 -14.1899 * logK= -14.285000 deltaH= 2.700000 kJ H3-DTPA-- formula= H3(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 391.3340 g 2 species in reaction 3.000 H+ 1.000 DTPA----- -27.0111 -26.5408 -26.1100 -25.6384 -25.2099 -24.8189 -24.4606 -24.1311 * logK= -26.110000 deltaH= 56.200000 kJ H3-Glutamate+ formula= H3(C5H7NO4)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 148.1383 g 2 species in reaction 3.000 H+ 1.000 Glutamate-- -17.1576 -16.7726 -16.4200 -16.0340 -15.6833 -15.3632 -15.0700 -14.8003 * logK= -16.420000 deltaH= 46.000000 kJ H3-HEDTA (aq) formula= C10H18N2O7 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 278.2614 g 2 species in reaction 3.000 H+ 1.000 HEDTA--- -19.6252 -19.3406 -19.0800 -18.7947 -18.5355 -18.2989 -18.0821 -17.8828 * logK= -19.080000 deltaH= 34.000000 kJ H3AsO4 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 141.9429 g 2 species in reaction 3.000 H+ 1.000 AsO4--- -21.3025 -21.1916 -21.0900 -20.9788 -20.8778 -20.7856 -20.7011 -20.6235 * logK= -21.090000 deltaH= 13.250000 kJ H3BO3-Acetate- formula= H3BO3(CH3COO)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 120.8764 g 2 species in reaction 1.000 H3BO3 1.000 Acetate- .4300 .4300 .4300 .4300 .4300 .4300 .4300 .4300 * logK= 0.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C H3BO3-Phthalate-- formula= H3BO3[C6H4(COO)2]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 225.9491 g 2 species in reaction 1.000 H3BO3 1.000 Phthalate-- .0700 .0700 .0700 .0700 .0700 .0700 .0700 .0700 * logK= 0.070000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C H3EDTA- formula= H3(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 291.2371 g 2 species in reaction 3.000 H+ 1.000 EDTA---- -20.8014 -20.5596 -20.3380 -20.0955 -19.8751 -19.6741 -19.4898 -19.3204 * logK= -20.338000 deltaH= 28.900000 kJ H3EGTA- formula= H3(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 379.3431 g 2 species in reaction 1.000 EGTA---- 3.000 H+ -23.7679 -23.2993 -22.8700 -22.4001 -21.9731 -21.5835 -21.2265 -20.8982 * logK= -22.870000 deltaH= 56.000000 kJ H3Mo8O28----- charge= -5 ion size= 0.0 A b= 0.0000 mole wt.= 1218.5269 g 3 species in reaction 11.000 H+ 8.000 MoO4-- -4.000 H2O -74.1493 -71.8482 -69.7400 -67.4323 -65.3356 -63.4222 -61.6691 -60.0569 * logK= -69.740000 deltaH= 275.000000 kJ H3NTA (aq) formula= N(CH2COOH)3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 191.1402 g 2 species in reaction 1.000 NTA--- 3.000 H+ -15.4965 -15.3627 -15.2400 -15.1057 -14.9837 -14.8724 -14.7704 -14.6766 * logK= -15.240000 deltaH= 16.000000 kJ H3PO4 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 97.9951 g 2 species in reaction 3.000 H+ 1.000 PO4--- -21.8894 -21.8015 -21.7210 -21.6329 -21.5528 -21.4798 -21.4128 -21.3513 * logK= -21.721000 deltaH= 10.500000 kJ H3SiO4- charge= -1 ion size= 4.0 A b= 0.0000 mole wt.= 95.1068 g 2 species in reaction -1.000 H+ 1.000 H4SiO4 10.5659 10.2246 9.9290 9.6270 9.3750 9.1665 8.9960 8.8589 * logK= 9.840000 deltaH= -20.000000 kJ * analytic data = 6.368 -.016346 -3405.9 0 0 0 0 H3V10O28--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 960.4219 g 3 species in reaction 17.000 H+ -12.000 H2O 10.000 HVO4-- -150.3800 -150.3800 -150.3800 -150.3800 -150.3800 -150.3800 -150.3800 -150.3800 * logK= -150.380000 deltaH= 0.000000 kJ H4-DTPA- formula= H4(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 392.3419 g 2 species in reaction 4.000 H+ 1.000 DTPA----- -30.1571 -29.6785 -29.2400 -28.7600 -28.3239 -27.9259 -27.5613 -27.2259 * logK= -29.240000 deltaH= 57.200000 kJ H4-HEDTA+ formula= C10H19N2O7+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 279.2693 g 2 species in reaction 4.000 H+ 1.000 HEDTA--- -20.5800 -20.5800 -20.5800 -20.5800 -20.5800 -20.5800 -20.5800 -20.5800 * logK= -20.580000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C H4BO3-Phthalate- formula= H4BO3[C6H4(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 226.9570 g 3 species in reaction 1.000 H3BO3 1.000 Phthalate-- 1.000 H+ 1.0700 1.0700 1.0700 1.0700 1.0700 1.0700 1.0700 1.0700 * logK= 1.070000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C H4EDTA (aq) formula= C10H16N2O8 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 292.2450 g 2 species in reaction 4.000 H+ 1.000 EDTA---- -22.9993 -22.7659 -22.5520 -22.3179 -22.1052 -21.9110 -21.7332 -21.5696 * logK= -22.552000 deltaH= 27.900000 kJ H4EGTA (aq) formula= C14H24N2O10 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 380.3510 g 2 species in reaction 1.000 EGTA---- 4.000 H+ -25.6839 -25.2070 -24.7700 -24.2917 -23.8571 -23.4605 -23.0971 -22.7630 * logK= -24.770000 deltaH= 57.000000 kJ H4NTA+ formula= H4[N(CH2COO)3]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 192.1481 g 2 species in reaction 1.000 NTA--- 4.000 H+ -16.3635 -16.2990 -16.2400 -16.1754 -16.1167 -16.0631 -16.0140 -15.9689 * logK= -16.240000 deltaH= 7.700000 kJ H4SiO4SO4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 192.1763 g 2 species in reaction 1.000 H4SiO4 1.000 SO4-- .5721 .5553 .5400 .5232 .5080 .4941 .4813 .4696 * logK= 0.540000 deltaH= -2.000000 kJ H5(BO3)2- charge= -1 ion size= 2.5 A b= 0.0000 mole wt.= 122.6559 g 2 species in reaction 2.000 H3BO3 -1.000 H+ 9.4407 9.3704 9.3060 9.2355 9.1715 9.1130 9.0595 9.0102 * logK= 9.306000 deltaH= -8.400000 kJ H5-DTPA (aq) formula= C14H23N3O10 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 393.3498 g 2 species in reaction 5.000 H+ 1.000 DTPA----- -32.3451 -31.8832 -31.4600 -30.9968 -30.5759 -30.1919 -29.8400 -29.5163 * logK= -31.460000 deltaH= 55.200000 kJ H5EDTA+ formula= H5(C10H12N2O8)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 293.2529 g 2 species in reaction 5.000 H+ 1.000 EDTA---- -24.4673 -24.2506 -24.0520 -23.8347 -23.6372 -23.4570 -23.2919 -23.1400 * logK= -24.052000 deltaH= 25.900000 kJ H5EGTA+ formula= H5(C14H20N2O10)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 381.3589 g 2 species in reaction 1.000 EGTA---- 5.000 H+ -25.6200 -25.6200 -25.6200 -25.6200 -25.6200 -25.6200 -25.6200 -25.6200 * logK= -25.620000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C H6-DTPA+ formula= H6(C14H18N3O10)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 394.3577 g 2 species in reaction 6.000 H+ 1.000 DTPA----- -33.0500 -33.0500 -33.0500 -33.0500 -33.0500 -33.0500 -33.0500 -33.0500 * logK= -33.050000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C H6EDTA++ formula= H6(C10H12N2O8)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 294.2608 g 2 species in reaction 6.000 H+ 1.000 EDTA---- -24.3425 -24.1324 -23.9400 -23.7294 -23.5380 -23.3634 -23.2033 -23.0562 * logK= -23.940000 deltaH= 25.100000 kJ H7-DTPA++ formula= H7(C14H18N3O10)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 395.3656 g 2 species in reaction 7.000 H+ 1.000 DTPA----- -33.5400 -33.5400 -33.5400 -33.5400 -33.5400 -33.5400 -33.5400 -33.5400 * logK= -33.540000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C H8(BO3)3- charge= -1 ion size= 2.5 A b= 0.0000 mole wt.= 184.4878 g 2 species in reaction 3.000 H3BO3 -1.000 H+ 7.7774 7.5314 7.3060 7.0593 6.8351 6.6306 6.4431 6.2708 * logK= 7.306000 deltaH= -29.400000 kJ H[2-Picoline]+ formula= H(C6H7N)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 94.1359 g 2 species in reaction 1.000 H+ 1.000 2Picol -6.3592 -6.1457 -5.9500 -5.7358 -5.5412 -5.3637 -5.2010 -5.0513 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -5.950000 deltaH= 25.522400 kJ H[3-Picoline]+ formula= H(C6H7N)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 94.1359 g 2 species in reaction 1.000 3Picol 1.000 H+ -6.0824 -5.8828 -5.7000 -5.4999 -5.3180 -5.1521 -5.0001 -4.8603 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -5.700000 deltaH= 23.848800 kJ H[4-Picoline]+ formula= H(C6H7N)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 94.1359 g 2 species in reaction 1.000 4Picol 1.000 H+ -6.4359 -6.2241 -6.0300 -5.8176 -5.6246 -5.4485 -5.2871 -5.1387 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -6.030000 deltaH= 25.313200 kJ H[Butylamine]+ formula= H(C4H11N)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 74.1455 g 2 species in reaction 1.000 BuAm 1.000 H+ -11.5745 -11.0868 -10.6400 -10.1509 -9.7065 -9.3010 -8.9295 -8.5878 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -10.640000 deltaH= 58.283100 kJ H[Diethylamine]+ formula= H[(CH3CH2)2NH]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 74.1455 g 2 species in reaction 1.000 H+ 1.000 DiEtAm -11.7850 -11.3404 -10.9330 -10.4871 -10.0820 -9.7122 -9.3735 -9.0620 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -10.933000 deltaH= 53.136800 kJ H[Dimethylamine]+ formula= H[(CH3)2NH]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 46.0919 g 2 species in reaction 1.000 H+ 1.000 DiMeAm -11.5790 -11.1589 -10.7740 -10.3527 -9.9699 -9.6205 -9.3005 -9.0061 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -10.774000 deltaH= 50.208000 kJ H[Ethylenediamine]+ formula= H[C2H4(NH2)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 61.1065 g 2 species in reaction 1.000 H+ 1.000 EtDiAm -10.7185 -10.3059 -9.9280 -9.5143 -9.1384 -8.7954 -8.4811 -8.1921 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -9.928000 deltaH= 49.300000 kJ H[Hexylamine]+ formula= H(C6H15N)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 102.1991 g 2 species in reaction 1.000 H+ 1.000 HexylAm -11.5692 -11.0791 -10.6300 -10.1385 -9.6919 -9.2843 -8.9109 -8.5675 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -10.630000 deltaH= 58.576000 kJ H[Isopropylamine]+ formula= H[(CH3)2CHNH2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 60.1187 g 2 species in reaction 1.000 H+ 1.000 iPrAm -11.6059 -11.1175 -10.6700 -10.1802 -9.7352 -9.3291 -8.9570 -8.6148 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -10.670000 deltaH= 58.366800 kJ H[Methylamine]+ formula= H(CH3NH2)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 32.0651 g 2 species in reaction 1.000 H+ 1.000 MeAm -11.5255 -11.0634 -10.6400 -10.1765 -9.7555 -9.3712 -9.0191 -8.6953 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -10.640000 deltaH= 55.228800 kJ H[Phenylacetate] formula= H(C8H7O2) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 136.1500 g 2 species in reaction 1.000 PhAcO- 1.000 H+ -4.2751 -4.2933 -4.3100 -4.3283 -4.3448 -4.3600 -4.3739 -4.3866 * logK= -4.310000 deltaH= -2.175700 kJ H[Propylamine]+ formula= H[CH3(CH2)2NH2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 60.1187 g 2 species in reaction 1.000 H+ 1.000 PrAm -11.4884 -11.0070 -10.5660 -10.0832 -9.6446 -9.2443 -8.8776 -8.5403 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -10.566000 deltaH= 57.530000 kJ H[Trimethylamine]+ formula= H[(CH3)3N]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 60.1187 g 2 species in reaction 1.000 TriMeAm 1.000 H+ -10.3904 -10.0823 -9.8000 -9.4910 -9.2103 -8.9541 -8.7194 -8.5036 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -9.800000 deltaH= 36.819200 kJ HAsO3-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 123.9277 g 2 species in reaction 1.000 H3AsO3 -2.000 H+ 24.2226 23.7254 23.2700 22.7715 22.3185 21.9052 21.5264 21.1782 * logK= 23.270000 deltaH= -59.408600 kJ HAsO4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 139.9271 g 2 species in reaction 1.000 H+ 1.000 AsO4--- -12.0918 -11.9395 -11.8000 -11.6473 -11.5085 -11.3819 -11.2659 -11.1592 * logK= -11.800000 deltaH= 18.200000 kJ HCN (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 27.0256 g 2 species in reaction 1.000 H+ 1.000 CN- -9.9089 -9.5442 -9.2100 -8.8442 -8.5119 -8.2086 -7.9307 -7.6751 * logK= -9.210000 deltaH= 43.590000 kJ HCO3- charge= -1 ion size= 5.4 A b= 0.0000 mole wt.= 61.0171 g 2 species in reaction 1.000 H+ 1.000 CO3-- -10.6286 -10.4573 -10.3289 -10.2217 -10.1571 -10.1281 -10.1289 -10.1552 * logK= -10.329000 deltaH= 14.600000 kJ * analytic data = 107.8871 .03252849 -5151.79 -38.92561 0 563713.9 0 HCrO4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 117.0015 g 2 species in reaction 1.000 CrO4-- 1.000 H+ -6.4779 -6.4947 -6.5100 -6.5268 -6.5420 -6.5559 -6.5687 -6.5804 * logK= -6.510000 deltaH= -2.000000 kJ HEDTA(ii)--- formula= H(C10H12N2O8)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 289.2213 g 2 species in reaction 1.000 H+ 1.000 EDTA---- -11.2847 -11.1090 -10.9480 -10.7718 -10.6117 -10.4656 -10.3317 -10.2086 * logK= -10.948000 deltaH= 21.000000 kJ * This species had the same name as the basis species HEDTA---, but is in fact * not the same species, so because GWB needs unique names this specie's name * was changed to HEDTA(ii)--- HEGTA--- formula= H(C14H20N2O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 377.3273 g 2 species in reaction 1.000 EGTA---- 1.000 H+ -10.5388 -10.3463 -10.1700 -9.9770 -9.8016 -9.6416 -9.4950 -9.3601 * logK= -10.170000 deltaH= 23.000000 kJ HF (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 20.0063 g 2 species in reaction 1.000 H+ 1.000 F- -2.9667 -3.0780 -3.1800 -3.2916 -3.3930 -3.4856 -3.5703 -3.6483 * logK= -3.180000 deltaH= -13.300000 kJ Hf(OH)5- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 263.5265 g 3 species in reaction 1.000 Hf++++ -5.000 H+ 5.000 H2O 17.1850 17.1850 17.1850 17.1850 17.1850 17.1850 17.1850 17.1850 * logK= 17.185000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HF2- charge= -1 ion size= 3.5 A b= 0.0000 mole wt.= 39.0047 g 2 species in reaction 1.000 H+ 2.000 F- -3.5010 -3.6466 -3.7800 -3.9260 -4.0587 -4.1797 -4.2907 -4.3927 * logK= -3.780000 deltaH= -17.400000 kJ HFe(CN)6--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 212.9611 g 3 species in reaction 1.000 H+ 1.000 Fe++ 6.000 CN- -45.4181 -42.4392 -39.7100 -36.7226 -34.0083 -31.5314 -29.2619 -27.1748 * logK= -39.710000 deltaH= 356.000000 kJ HfOH+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 195.4973 g 3 species in reaction 1.000 Hf++++ -1.000 H+ 1.000 H2O .1970 .1970 .1970 .1970 .1970 .1970 .1970 .1970 * logK= 0.197000 deltaH= 0.000000 kJ Hg (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 200.5900 g 4 species in reaction .500 Hg2++ -1.000 H+ -.250 O2(aq) .500 H2O 16.4821 15.6843 14.9533 14.1532 13.4262 12.7628 12.1549 11.5959 * logK= 14.953300 deltaH= -95.349693 kJ Hg(CN)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 252.6254 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 2.000 CN- -42.6620 -40.7039 -38.9100 -36.9464 -35.1623 -33.5341 -32.0424 -30.6706 * logK= -38.910000 deltaH= 234.000000 kJ Hg(CN)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 278.6431 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 3.000 CN- -46.6821 -44.4839 -42.4700 -40.2655 -38.2626 -36.4348 -34.7601 -33.2200 * logK= -42.470000 deltaH= 262.700000 kJ Hg(CN)4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 304.6608 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 4.000 CN- -49.7590 -47.3432 -45.1300 -42.7074 -40.5062 -38.4975 -36.6570 -34.9645 * logK= -45.130000 deltaH= 288.700000 kJ Hg(CO3)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 320.6084 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 2.000 CO3-- -21.7400 -21.7400 -21.7400 -21.7400 -21.7400 -21.7400 -21.7400 -21.7400 * logK= -21.740000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Hg(HS)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 266.7338 g 4 species in reaction 2.000 H+ 2.000 HS- 1.000 Hg(OH)2 -2.000 H2O -44.5800 -44.5800 -44.5800 -44.5800 -44.5800 -44.5800 -44.5800 -44.5800 * logK= -44.580000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Hg(NH3)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 234.6508 g 3 species in reaction 1.000 Hg(OH)2 -2.000 H2O 2.000 NH4+ -6.0905 -5.7667 -5.4700 -5.1452 -4.8502 -4.5809 -4.3342 -4.1073 * logK= -5.470000 deltaH= 38.700000 kJ Hg(NH3)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 268.7116 g 4 species in reaction -2.000 H+ 1.000 Hg(OH)2 4.000 NH4+ -2.000 H2O 12.1020 11.7983 11.5200 11.2154 10.9386 10.6861 10.4546 10.2418 * logK= 11.520000 deltaH= -36.300000 kJ Hg(NO2)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 292.6010 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 2.000 NO2- -16.0700 -16.0700 -16.0700 -16.0700 -16.0700 -16.0700 -16.0700 -16.0700 * logK= -16.070000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Hg(NO2)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 338.6065 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 3.000 NO2- -17.6100 -17.6100 -17.6100 -17.6100 -17.6100 -17.6100 -17.6100 -17.6100 * logK= -17.610000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Hg(NO2)4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 384.6120 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 4.000 NO2- -18.0200 -18.0200 -18.0200 -18.0200 -18.0200 -18.0200 -18.0200 -18.0200 * logK= -18.020000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Hg(NO3)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 324.5998 g 4 species in reaction 2.000 H+ 2.000 NO3- 1.000 Hg(OH)2 -2.000 H2O -5.3800 -5.3800 -5.3800 -5.3800 -5.3800 -5.3800 -5.3800 -5.3800 * logK= -5.380000 deltaH= 0.000000 kJ Hg(S2O3)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 442.8576 g 4 species in reaction 2.000 S2O3-- 2.000 H+ 1.000 Hg(OH)2 -1.000 H2O -35.3900 -35.3900 -35.3900 -35.3900 -35.3900 -35.3900 -35.3900 -35.3900 * logK= -35.390000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Hg(S2O3)3---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 554.9838 g 4 species in reaction 3.000 S2O3-- 2.000 H+ 1.000 Hg(OH)2 -1.000 H2O -39.9780 -38.2986 -36.7600 -35.0758 -33.5456 -32.1492 -30.8697 -29.6931 * logK= -36.760000 deltaH= 200.700000 kJ Hg(SCN)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 316.7534 g 4 species in reaction 2.000 H+ 2.000 SCN- 1.000 Hg(OH)2 -2.000 H2O -25.9160 -24.7386 -23.6600 -22.4793 -21.4066 -20.4276 -19.5306 -18.7058 * logK= -23.660000 deltaH= 140.700000 kJ Hg(SCN)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 374.8351 g 4 species in reaction 2.000 H+ 3.000 SCN- 1.000 Hg(OH)2 -2.000 H2O -29.0306 -27.6943 -26.4700 -25.1299 -23.9123 -22.8011 -21.7830 -20.8468 * logK= -26.470000 deltaH= 159.700000 kJ Hg(SCN)4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 432.9168 g 4 species in reaction 2.000 H+ 4.000 SCN- 1.000 Hg(OH)2 -2.000 H2O -31.1673 -29.6553 -28.2700 -26.7536 -25.3759 -24.1186 -22.9667 -21.9073 * logK= -28.270000 deltaH= 180.700000 kJ Hg(SeO3)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 454.5064 g 3 species in reaction 1.000 Hg(OH)2 2.000 HSeO3- -2.000 H2O -2.7100 -2.7100 -2.7100 -2.7100 -2.7100 -2.7100 -2.7100 -2.7100 * logK= -2.710000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Hg(SO3)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 378.7296 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -1.000 H2O 2.000 SO3-- -31.5874 -30.5606 -29.6200 -28.5904 -27.6548 -26.8011 -26.0189 -25.2996 * logK= -29.620000 deltaH= 122.700000 kJ Hg(SO3)3---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 458.7918 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -1.000 H2O 3.000 SO3-- -30.6600 -30.6600 -30.6600 -30.6600 -30.6600 -30.6600 -30.6600 -30.6600 * logK= -30.660000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Hg(SO4)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 392.7132 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 2.000 SO4-- -9.6400 -9.6400 -9.6400 -9.6400 -9.6400 -9.6400 -9.6400 -9.6400 * logK= -9.640000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Hg++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 200.5900 g 3 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -6.8009 -6.4685 -6.1640 -5.8307 -5.5278 -5.2515 -4.9983 -4.7654 * logK= -6.164000 deltaH= 39.720000 kJ Hg-(Acetate)2 (aq) formula= Hg(CH3COO)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 318.6790 g 4 species in reaction 2.000 Acetate- 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -13.8300 -13.8300 -13.8300 -13.8300 -13.8300 -13.8300 -13.8300 -13.8300 * logK= -13.830000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Hg-(Glutamate)2-- formula= Hg(C5H7NO4)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 490.8192 g 4 species in reaction 2.000 Glutamate-- 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -26.2000 -26.2000 -26.2000 -26.2000 -26.2000 -26.2000 -26.2000 -26.2000 * logK= -26.200000 deltaH= 0.000000 kJ Hg-(Glycine)2 (aq) formula= Hg[NH2CH2COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 348.7082 g 4 species in reaction 2.000 Glycine- 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -26.2500 -26.2500 -26.2500 -26.2500 -26.2500 -26.2500 -26.2500 -26.2500 * logK= -26.250000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Hg-Acetate+ formula= Hg(CH3COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 259.6345 g 4 species in reaction 1.000 Acetate- 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -10.4900 -10.4900 -10.4900 -10.4900 -10.4900 -10.4900 -10.4900 -10.4900 * logK= -10.490000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Hg-Butyrate+ formula= Hg[CH3CH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 287.6881 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 1.000 Butyrate- -10.2000 -10.2000 -10.2000 -10.2000 -10.2000 -10.2000 -10.2000 -10.2000 * logK= -10.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Hg-Citrate- formula= Hg[C3H5O(COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 389.6913 g 4 species in reaction 2.000 H+ 1.000 Citrate--- 1.000 Hg(OH)2 -2.000 H2O -18.3800 -18.3800 -18.3800 -18.3800 -18.3800 -18.3800 -18.3800 -18.3800 * logK= -18.380000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Hg-DTPA--- formula= Hg(C14H18N3O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 588.9003 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 1.000 DTPA----- -2.000 H2O -36.9594 -35.8012 -34.7400 -33.5784 -32.5231 -31.5600 -30.6775 -29.8661 * logK= -34.740000 deltaH= 138.420000 kJ Hg-Formate+ formula= Hg[HCOO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 245.6077 g 4 species in reaction 2.000 H+ 1.000 Formate- 1.000 Hg(OH)2 -2.000 H2O -9.6900 -9.6900 -9.6900 -9.6900 -9.6900 -9.6900 -9.6900 -9.6900 * logK= -9.690000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Hg-Glutamate (aq) formula= Hg(C5H7NO4) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 345.7046 g 4 species in reaction 1.000 Glutamate-- 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -19.8000 -19.8000 -19.8000 -19.8000 -19.8000 -19.8000 -19.8000 -19.8000 * logK= -19.800000 deltaH= 0.000000 kJ Hg-Glycine+ formula= Hg[NH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 274.6491 g 4 species in reaction 1.000 Glycine- 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -17.0300 -17.0300 -17.0300 -17.0300 -17.0300 -17.0300 -17.0300 -17.0300 * logK= -17.030000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Hg-HEDTA- formula= Hg(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 475.8277 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 1.000 HEDTA--- -29.5573 -28.5254 -27.5800 -26.5452 -25.6049 -24.7469 -23.9607 -23.2378 * logK= -27.580000 deltaH= 123.320000 kJ Hg-Oxalate (aq) formula= Hg[(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 288.6096 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 1.000 Oxalate-- -2.000 H2O -16.7200 -16.7200 -16.7200 -16.7200 -16.7200 -16.7200 -16.7200 -16.7200 * logK= -16.720000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Hg-Propionate+ formula= Hg(CH3CH2COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 273.6613 g 4 species in reaction 1.000 Propionate- 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -10.5940 -10.5940 -10.5940 -10.5940 -10.5940 -10.5940 -10.5940 -10.5940 * logK= -10.594000 deltaH= 0.000000 kJ Hg-Tartrate (aq) formula= Hg(C4H4O6) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 348.6620 g 4 species in reaction 1.000 Tartrate-- 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -14.0600 -14.0600 -14.0600 -14.0600 -14.0600 -14.0600 -14.0600 -14.0600 * logK= -14.060000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Hg2OH+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 418.1873 g 3 species in reaction 3.000 H+ 2.000 Hg(OH)2 -3.000 H2O -10.0795 -9.5323 -9.0310 -8.4823 -7.9837 -7.5287 -7.1119 -6.7285 * logK= -9.031000 deltaH= 65.390000 kJ Hg3(OH)3+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 652.7919 g 3 species in reaction 3.000 H+ 3.000 Hg(OH)2 -3.000 H2O -12.1010 -12.1010 -12.1010 -12.1010 -12.1010 -12.1010 -12.1010 -12.1010 * logK= -12.101000 deltaH= 0.000000 kJ Hg[Butylamine]++ formula= Hg(C4H11N)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 273.7276 g 4 species in reaction 1.000 BuAm 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -14.8400 -14.8400 -14.8400 -14.8400 -14.8400 -14.8400 -14.8400 -14.8400 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -14.840000 deltaH= 0.000000 kJ Hg[Butylamine]2++ formula= Hg(C4H11N)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 346.8652 g 4 species in reaction 2.000 BuAm 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -24.2400 -24.2400 -24.2400 -24.2400 -24.2400 -24.2400 -24.2400 -24.2400 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -24.240000 deltaH= 0.000000 kJ Hg[Butylamine]3++ formula= Hg(C4H11N)3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 420.0028 g 4 species in reaction 3.000 BuAm 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -25.1000 -25.1000 -25.1000 -25.1000 -25.1000 -25.1000 -25.1000 -25.1000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -25.100000 deltaH= 0.000000 kJ Hg[Butylamine]4++ formula= Hg(C4H11N)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 493.1404 g 4 species in reaction 4.000 BuAm 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -26.1000 -26.1000 -26.1000 -26.1000 -26.1000 -26.1000 -26.1000 -26.1000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -26.100000 deltaH= 0.000000 kJ Hg[Ethylenediamine]++ formula= Hg[C2H4(NH2)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 260.6886 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 1.000 EtDiAm -20.4000 -20.4000 -20.4000 -20.4000 -20.4000 -20.4000 -20.4000 -20.4000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -20.400000 deltaH= 0.000000 kJ Hg[Ethylenediamine]2++ formula= Hg[C2H4(NH2)2]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 320.7872 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 2.000 EtDiAm -32.0774 -30.6279 -29.3000 -27.8464 -26.5258 -25.3205 -24.2163 -23.2008 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -29.300000 deltaH= 173.217600 kJ Hg[Isopropylamine]++ formula= Hg[(CH3)2CHNH2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 259.7008 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 1.000 iPrAm -14.8500 -14.8500 -14.8500 -14.8500 -14.8500 -14.8500 -14.8500 -14.8500 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -14.850000 deltaH= 0.000000 kJ Hg[Isopropylamine]2++ formula= Hg[(CH3)2CHNH2]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 318.8116 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 2.000 iPrAm -24.3700 -24.3700 -24.3700 -24.3700 -24.3700 -24.3700 -24.3700 -24.3700 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -24.370000 deltaH= 0.000000 kJ Hg[Methylamine]++ formula= Hg(CH3NH2)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 231.6472 g 4 species in reaction 1.000 MeAm 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -14.7600 -14.7600 -14.7600 -14.7600 -14.7600 -14.7600 -14.7600 -14.7600 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -14.760000 deltaH= 0.000000 kJ Hg[Methylamine]2++ formula= Hg(CH3NH2)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 262.7044 g 4 species in reaction 2.000 MeAm 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -23.9600 -23.9600 -23.9600 -23.9600 -23.9600 -23.9600 -23.9600 -23.9600 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -23.960000 deltaH= 0.000000 kJ Hg[Methylamine]3++ formula= Hg(CH3NH2)3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 293.7616 g 4 species in reaction 3.000 MeAm 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -24.3000 -24.3000 -24.3000 -24.3000 -24.3000 -24.3000 -24.3000 -24.3000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -24.300000 deltaH= 0.000000 kJ Hg[Methylamine]4++ formula= Hg(CH3NH2)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 324.8188 g 4 species in reaction 4.000 MeAm 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -24.6000 -24.6000 -24.6000 -24.6000 -24.6000 -24.6000 -24.6000 -24.6000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -24.600000 deltaH= 0.000000 kJ HgBr+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 280.4940 g 4 species in reaction 1.000 Br- 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -17.0832 -16.3979 -15.7700 -15.0827 -14.4583 -13.8885 -13.3663 -12.8862 * logK= -15.770000 deltaH= 81.900000 kJ HgBr2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 360.3980 g 4 species in reaction 2.000 Br- 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -26.3279 -25.2644 -24.2900 -23.2234 -22.2544 -21.3700 -20.5598 -19.8147 * logK= -24.290000 deltaH= 127.100000 kJ HgBr2I2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 614.2068 g 5 species in reaction 2.000 Br- 2.000 H+ 1.000 Hg(OH)2 2.000 I- -2.000 H2O -32.3994 -32.3994 -32.3994 -32.3994 -32.3994 -32.3994 -32.3994 -32.3994 * logK= -32.399400 deltaH= 0.000000 kJ HgBr3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 440.3020 g 4 species in reaction 3.000 Br- 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -28.8955 -27.7341 -26.6700 -25.5053 -24.4470 -23.4812 -22.5964 -21.7827 * logK= -26.670000 deltaH= 138.800000 kJ HgBr3I-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 567.2064 g 5 species in reaction 3.000 Br- 2.000 H+ 1.000 Hg(OH)2 1.000 I- -2.000 H2O -30.1528 -30.1528 -30.1528 -30.1528 -30.1528 -30.1528 -30.1528 -30.1528 * logK= -30.152800 deltaH= 0.000000 kJ HgBr4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 520.2060 g 4 species in reaction 4.000 Br- 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -30.3644 -29.0783 -27.9000 -26.6102 -25.4384 -24.3689 -23.3891 -22.4880 * logK= -27.900000 deltaH= 153.700000 kJ HgBrCl (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 315.9470 g 5 species in reaction 1.000 Br- 1.000 Cl- 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -24.0053 -23.0533 -22.1811 -21.2264 -20.3590 -19.5674 -18.8421 -18.1751 * logK= -22.181100 deltaH= 113.770000 kJ HgBrI (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 407.3984 g 5 species in reaction 1.000 Br- 2.000 H+ 1.000 Hg(OH)2 1.000 I- -2.000 H2O -29.7388 -28.4730 -27.3133 -26.0439 -24.8906 -23.8381 -22.8737 -21.9869 * logK= -27.313300 deltaH= 151.270000 kJ HgBrI3-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 661.2072 g 5 species in reaction 1.000 Br- 2.000 H+ 1.000 Hg(OH)2 3.000 I- -2.000 H2O -34.2135 -34.2135 -34.2135 -34.2135 -34.2135 -34.2135 -34.2135 -34.2135 * logK= -34.213500 deltaH= 0.000000 kJ HgBrOH (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 297.5013 g 4 species in reaction 1.000 Br- 1.000 H+ 1.000 Hg(OH)2 -1.000 H2O -12.4000 -12.4000 -12.4000 -12.4000 -12.4000 -12.4000 -12.4000 -12.4000 * logK= -12.400000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HgCl+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 236.0430 g 4 species in reaction 1.000 Cl- 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -14.4633 -13.9553 -13.4900 -12.9806 -12.5178 -12.0955 -11.7085 -11.3527 * logK= -13.490000 deltaH= 60.700000 kJ HgCl2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 271.4960 g 4 species in reaction 2.000 Cl- 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -21.6507 -20.8884 -20.1900 -19.4255 -18.7310 -18.0971 -17.5163 -16.9823 * logK= -20.190000 deltaH= 91.100000 kJ HgCl3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 306.9490 g 4 species in reaction 3.000 Cl- 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -22.6443 -21.8853 -21.1900 -20.4289 -19.7374 -19.1063 -18.5281 -17.9963 * logK= -21.190000 deltaH= 90.700000 kJ HgCl4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 342.4020 g 4 species in reaction 4.000 Cl- 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -23.3790 -22.5497 -21.7900 -20.9584 -20.2028 -19.5133 -18.8815 -18.3006 * logK= -21.790000 deltaH= 99.100000 kJ HgClI (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 362.9474 g 5 species in reaction 1.000 Cl- 2.000 H+ 1.000 Hg(OH)2 1.000 I- -2.000 H2O -27.7014 -26.5692 -25.5320 -24.3966 -23.3650 -22.4237 -21.5611 -20.7679 * logK= -25.532000 deltaH= 135.299900 kJ HgClOH (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 253.0503 g 4 species in reaction 1.000 Cl- 1.000 H+ 1.000 Hg(OH)2 -1.000 H2O -11.1290 -10.7715 -10.4440 -10.0855 -9.7598 -9.4626 -9.1902 -8.9398 * logK= -10.444000 deltaH= 42.720000 kJ HgCN+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 226.6077 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 1.000 CN- -25.3518 -24.2080 -23.1600 -22.0129 -20.9706 -20.0195 -19.1480 -18.3466 * logK= -23.160000 deltaH= 136.700000 kJ HgCO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 260.5992 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 1.000 CO3-- -18.2900 -18.2900 -18.2900 -18.2900 -18.2900 -18.2900 -18.2900 -18.2900 * logK= -18.290000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HgEDTA-- formula= Hg(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 488.8034 g 4 species in reaction 2.000 H+ 1.000 EDTA---- 1.000 Hg(OH)2 -2.000 H2O -31.3032 -30.3100 -29.4000 -28.4039 -27.4989 -26.6730 -25.9163 -25.2204 * logK= -29.400000 deltaH= 118.700000 kJ HgEGTA-- formula= Hg(C14H20N2O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 576.9094 g 4 species in reaction 1.000 EGTA---- 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -32.9983 -31.8510 -30.8000 -29.6495 -28.6042 -27.6503 -26.7763 -25.9725 * logK= -30.800000 deltaH= 137.100000 kJ HgF+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 219.5884 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 1.000 F- -8.3324 -8.0337 -7.7600 -7.4604 -7.1882 -6.9398 -6.7123 -6.5030 * logK= -7.760000 deltaH= 35.700000 kJ HgH-DTPA-- formula= HgH(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 589.9082 g 4 species in reaction 3.000 H+ 1.000 Hg(OH)2 1.000 DTPA----- -2.000 H2O -40.2740 -40.2740 -40.2740 -40.2740 -40.2740 -40.2740 -40.2740 -40.2740 * logK= -40.274000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HgH2EDTA (aq) formula= HgH2(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 490.8192 g 4 species in reaction 4.000 H+ 1.000 EDTA---- 1.000 Hg(OH)2 -2.000 H2O -35.3300 -35.3300 -35.3300 -35.3300 -35.3300 -35.3300 -35.3300 -35.3300 * logK= -35.330000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HgH[Ethylenediamine]2+++ formula= HgH[C2H4(NH2)2]2+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 321.7951 g 4 species in reaction 3.000 H+ 1.000 Hg(OH)2 -2.000 H2O 2.000 EtDiAm -34.7000 -34.7000 -34.7000 -34.7000 -34.7000 -34.7000 -34.7000 -34.7000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(3) -- using charge field value. * logK= -34.700000 deltaH= 0.000000 kJ HgHCO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 261.6071 g 4 species in reaction 3.000 H+ 1.000 Hg(OH)2 -2.000 H2O 1.000 CO3-- -22.5100 -22.5100 -22.5100 -22.5100 -22.5100 -22.5100 -22.5100 -22.5100 * logK= -22.510000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HgHEDTA- formula= HgH(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 489.8113 g 4 species in reaction 3.000 H+ 1.000 EDTA---- 1.000 Hg(OH)2 -2.000 H2O -34.9653 -33.9553 -33.0300 -32.0171 -31.0969 -30.2571 -29.4876 -28.7800 * logK= -33.030000 deltaH= 120.700000 kJ HgHEGTA- formula= HgH(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 577.9173 g 4 species in reaction 1.000 EGTA---- 3.000 H+ 1.000 Hg(OH)2 -2.000 H2O -34.2900 -34.2900 -34.2900 -34.2900 -34.2900 -34.2900 -34.2900 -34.2900 * logK= -34.290000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HgHS2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 265.7259 g 4 species in reaction 1.000 H+ 2.000 HS- 1.000 Hg(OH)2 -2.000 H2O -38.0900 -38.0900 -38.0900 -38.0900 -38.0900 -38.0900 -38.0900 -38.0900 * logK= -38.090000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HgI+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 327.4944 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 1.000 I- -21.3530 -20.4225 -19.5700 -18.6369 -17.7890 -17.0153 -16.3064 -15.6545 * logK= -19.570000 deltaH= 111.200000 kJ HgI2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 454.3988 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 2.000 I- -33.7194 -32.1906 -30.7900 -29.2569 -27.8639 -26.5927 -25.4280 -24.3569 * logK= -30.790000 deltaH= 182.700000 kJ HgI3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 581.3032 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 3.000 I- -37.6841 -36.0589 -34.5700 -32.9402 -31.4594 -30.1080 -28.8699 -27.7313 * logK= -34.570000 deltaH= 194.220000 kJ HgI4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 708.2076 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 4.000 I- -40.0387 -38.1919 -36.5000 -34.6480 -32.9653 -31.4297 -30.0227 -28.7289 * logK= -36.500000 deltaH= 220.700000 kJ HgNO2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 246.5955 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 1.000 NO2- -12.1000 -12.1000 -12.1000 -12.1000 -12.1000 -12.1000 -12.1000 -12.1000 * logK= -12.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HgNO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 262.5949 g 4 species in reaction 2.000 H+ 1.000 NO3- 1.000 Hg(OH)2 -2.000 H2O -5.7613 -5.7613 -5.7613 -5.7613 -5.7613 -5.7613 -5.7613 -5.7613 * logK= -5.761300 deltaH= 0.000000 kJ HgNTA- formula= Hg[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 388.7065 g 4 species in reaction 1.000 NTA--- 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -21.7700 -21.7700 -21.7700 -21.7700 -21.7700 -21.7700 -21.7700 -21.7700 * logK= -21.770000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HgOH+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 217.5973 g 3 species in reaction 1.000 H+ 1.000 Hg(OH)2 -1.000 H2O -3.0699 -2.9118 -2.7670 -2.6085 -2.4645 -2.3330 -2.2126 -2.1019 * logK= -2.767000 deltaH= 18.890000 kJ HgOH-HEDTA-- formula= HgOH(C10H15N2O7)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 492.8350 g 4 species in reaction 1.000 H+ 1.000 Hg(OH)2 -1.000 H2O 1.000 HEDTA--- -18.7500 -18.7500 -18.7500 -18.7500 -18.7500 -18.7500 -18.7500 -18.7500 * logK= -18.750000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HgOHCO3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 277.6065 g 4 species in reaction 1.000 H+ 1.000 Hg(OH)2 1.000 CO3-- -1.000 H2O -11.3600 -11.3600 -11.3600 -11.3600 -11.3600 -11.3600 -11.3600 -11.3600 * logK= -11.360000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HgOHEDTA--- formula= HgOH(C10H12N2O8)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 505.8107 g 4 species in reaction 1.000 H+ 1.000 EDTA---- 1.000 Hg(OH)2 -1.000 H2O -19.8600 -19.8600 -19.8600 -19.8600 -19.8600 -19.8600 -19.8600 -19.8600 * logK= -19.860000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HgOHI (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 344.5017 g 4 species in reaction 1.000 H+ 1.000 Hg(OH)2 1.000 I- -1.000 H2O -9.4100 -9.4100 -9.4100 -9.4100 -9.4100 -9.4100 -9.4100 -9.4100 * logK= -9.410000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HgOHSCN (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 275.6790 g 4 species in reaction 1.000 H+ 1.000 SCN- 1.000 Hg(OH)2 -1.000 H2O -13.6779 -13.1206 -12.6100 -12.0511 -11.5433 -11.0799 -10.6554 -10.2649 * logK= -12.610000 deltaH= 66.600000 kJ HgS2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 264.7180 g 4 species in reaction 0.000 H+ 2.000 HS- 1.000 Hg(OH)2 -2.000 H2O -29.3800 -29.3800 -29.3800 -29.3800 -29.3800 -29.3800 -29.3800 -29.3800 * logK= -29.380000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HgSCN+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 258.6717 g 4 species in reaction 2.000 H+ 1.000 SCN- 1.000 Hg(OH)2 -2.000 H2O -17.2206 -16.4792 -15.8000 -15.0565 -14.3810 -13.7645 -13.1997 -12.6803 * logK= -15.800000 deltaH= 88.600000 kJ HgSO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 296.6516 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 1.000 SO4-- -8.6300 -8.6300 -8.6300 -8.6300 -8.6300 -8.6300 -8.6300 -8.6300 * logK= -8.630000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HMo7O24----- charge= -5 ion size= 0.0 A b= 0.0000 mole wt.= 1056.5735 g 3 species in reaction 9.000 H+ 7.000 MoO4-- -4.000 H2O -62.5564 -60.4812 -58.5800 -56.4989 -54.6081 -52.8825 -51.3015 -49.8476 * logK= -58.580000 deltaH= 248.000000 kJ HMoO4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 160.9455 g 2 species in reaction 1.000 H+ 1.000 MoO4-- -3.8873 -4.0713 -4.2400 -4.4246 -4.5924 -4.7454 -4.8857 -5.0146 * logK= -4.240000 deltaH= -22.000000 kJ HNO2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 47.0134 g 2 species in reaction 1.000 H+ 1.000 NO2- -3.1500 -3.1500 -3.1500 -3.1500 -3.1500 -3.1500 -3.1500 -3.1500 * logK= -3.150000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HNTA-- formula= H[N(CH2COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 189.1244 g 2 species in reaction 1.000 NTA--- 1.000 H+ -10.5986 -10.4397 -10.2940 -10.1346 -9.9897 -9.8575 -9.7364 -9.6250 * logK= -10.294000 deltaH= 19.000000 kJ Ho(NTA)2--- formula= Ho[N(CH2COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 541.1630 g 2 species in reaction 2.000 NTA--- 1.000 Ho+++ -23.2846 -23.1257 -22.9800 -22.8206 -22.6757 -22.5435 -22.4224 -22.3110 * logK= -22.980000 deltaH= 19.000000 kJ Ho(SO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 357.0532 g 2 species in reaction 1.000 Ho+++ 2.000 SO4-- -4.3067 -4.6164 -4.9000 -5.2105 -5.4926 -5.7500 -5.9859 -6.2028 * logK= -4.900000 deltaH= -37.000000 kJ Ho-(Acetate)2+ formula= Ho(CH3COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 283.0190 g 2 species in reaction 1.000 Ho+++ 2.000 Acetate- -3.8593 -4.0267 -4.1800 -4.3478 -4.5003 -4.6395 -4.7670 -4.8842 * logK= -4.180000 deltaH= -20.000000 kJ Ho-(Acetate)3 (aq) formula= Ho(CH3COO)3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 342.0635 g 2 species in reaction 1.000 Ho+++ 3.000 Acetate- -5.2614 -5.4120 -5.5500 -5.7010 -5.8383 -5.9635 -6.0783 -6.1838 * logK= -5.550000 deltaH= -18.000000 kJ Ho-(Benzoate)2+ formula= Ho(C6H5COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 407.1606 g 2 species in reaction 1.000 Ho+++ 2.000 Benzoate- -4.8500 -4.8500 -4.8500 -4.8500 -4.8500 -4.8500 -4.8500 -4.8500 * logK= -4.850000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ho-(Formate)2+ formula= Ho[HCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 254.9654 g 2 species in reaction 1.000 Ho+++ 2.000 Formate- -3.0400 -3.0400 -3.0400 -3.0400 -3.0400 -3.0400 -3.0400 -3.0400 * logK= -3.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ho-(iButyrate)2+ formula= Ho[(CH3)2CHCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 339.1262 g 2 species in reaction 2.000 iButyrate- 1.000 Ho+++ -3.7309 -4.0070 -4.2600 -4.5369 -4.7885 -5.0181 -5.2285 -5.4220 * logK= -4.260000 deltaH= -33.000000 kJ Ho-(Lactate)2+ formula= Ho[CH3CH(OH)COO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 343.0714 g 2 species in reaction 1.000 Ho+++ 2.000 Lactate- -6.5000 -6.5000 -6.5000 -6.5000 -6.5000 -6.5000 -6.5000 -6.5000 * logK= -6.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ho-(Lactate)3 (aq) formula= Ho[CH3CH(OH)COO]3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 432.1421 g 2 species in reaction 1.000 Ho+++ 3.000 Lactate- -8.1100 -8.1100 -8.1100 -8.1100 -8.1100 -8.1100 -8.1100 -8.1100 * logK= -8.110000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ho-(Malate)2- formula= Ho(C4H4O5)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 429.0752 g 2 species in reaction 1.000 Ho+++ 2.000 Malate-- -9.9700 -9.9700 -9.9700 -9.9700 -9.9700 -9.9700 -9.9700 -9.9700 * logK= -9.970000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ho-(Malonate)2- formula= Ho[CH2(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 369.0228 g 2 species in reaction 2.000 Malonate-- 1.000 Ho+++ -8.3373 -8.5213 -8.6900 -8.8746 -9.0424 -9.1954 -9.3357 -9.4646 * logK= -8.690000 deltaH= -22.000000 kJ Ho-(Malonate)3--- formula= Ho[CH2(COO)2]3--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 471.0692 g 2 species in reaction 3.000 Malonate-- 1.000 Ho+++ -8.4490 -8.7000 -8.9300 -9.1817 -9.4105 -9.6192 -9.8105 -9.9863 * logK= -8.930000 deltaH= -30.000000 kJ Ho-(Propionate)2+ formula= Ho(CH3CH2COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 311.0726 g 2 species in reaction 1.000 Ho+++ 2.000 Propionate- -4.1712 -4.3637 -4.5400 -4.7330 -4.9084 -5.0684 -5.2150 -5.3499 * logK= -4.540000 deltaH= -23.000000 kJ Ho-Acetate++ formula= Ho(CH3COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 223.9745 g 2 species in reaction 1.000 Ho+++ 1.000 Acetate- -2.2416 -2.3503 -2.4500 -2.5591 -2.6582 -2.7487 -2.8315 -2.9077 * logK= -2.450000 deltaH= -13.000000 kJ Ho-Benzoate++ formula= Ho(C6H5COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 286.0453 g 2 species in reaction 1.000 Ho+++ 1.000 Benzoate- -2.4997 -2.5833 -2.6600 -2.7439 -2.8202 -2.8897 -2.9535 -3.0121 * logK= -2.660000 deltaH= -10.000000 kJ Ho-Citrate (aq) formula= Ho[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 354.0313 g 2 species in reaction 1.000 Ho+++ 1.000 Citrate--- -9.3900 -9.3900 -9.3900 -9.3900 -9.3900 -9.3900 -9.3900 -9.3900 * logK= -9.390000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ho-DTPA-- formula= Ho(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 553.2403 g 2 species in reaction 1.000 Ho+++ 1.000 DTPA----- -26.4910 -26.2400 -26.0100 -25.7583 -25.5295 -25.3208 -25.1295 -24.9537 * logK= -26.010000 deltaH= 30.000000 kJ Ho-Formate++ formula= Ho[HCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 209.9477 g 2 species in reaction 1.000 Ho+++ 1.000 Formate- -1.7900 -1.7900 -1.7900 -1.7900 -1.7900 -1.7900 -1.7900 -1.7900 * logK= -1.790000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ho-Glycine++ formula= Ho[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 238.9891 g 2 species in reaction 1.000 Ho+++ 1.000 Glycine- -4.3500 -4.3500 -4.3500 -4.3500 -4.3500 -4.3500 -4.3500 -4.3500 * logK= -4.350000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ho-HEDTA (aq) formula= Ho(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 440.1677 g 2 species in reaction 1.000 Ho+++ 1.000 HEDTA--- -17.4445 -17.3273 -17.2200 -17.1025 -16.9958 -16.8984 -16.8091 -16.7270 * logK= -17.220000 deltaH= 14.000000 kJ Ho-iButyrate++ formula= Ho[(CH3)2CHCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 252.0281 g 2 species in reaction 1.000 iButyrate- 1.000 Ho+++ -2.1573 -2.3413 -2.5100 -2.6946 -2.8624 -3.0154 -3.1557 -3.2846 * logK= -2.510000 deltaH= -22.000000 kJ Ho-iPhthalate+ formula= Ho[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 329.0472 g 2 species in reaction 1.000 Ho+++ 1.000 iPhthalate-- -3.5995 -3.7250 -3.8400 -3.9659 -4.0802 -4.1846 -4.2802 -4.3682 * logK= -3.840000 deltaH= -15.000000 kJ Ho-Lactate++ formula= Ho[CH3CH(OH)COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 254.0007 g 2 species in reaction 1.000 Ho+++ 1.000 Lactate- -3.7000 -3.7000 -3.7000 -3.7000 -3.7000 -3.7000 -3.7000 -3.7000 * logK= -3.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ho-Malate+ formula= Ho(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 297.0026 g 2 species in reaction 1.000 Ho+++ 1.000 Malate-- -6.1900 -6.1900 -6.1900 -6.1900 -6.1900 -6.1900 -6.1900 -6.1900 * logK= -6.190000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ho-Malonate+ formula= Ho[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 266.9764 g 2 species in reaction 1.000 Malonate-- 1.000 Ho+++ -5.4716 -5.5803 -5.6800 -5.7891 -5.8882 -5.9787 -6.0615 -6.1377 * logK= -5.680000 deltaH= -13.000000 kJ Ho-Phthalate+ formula= Ho[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 329.0472 g 2 species in reaction 1.000 Ho+++ 1.000 Phthalate-- -4.8300 -4.8300 -4.8300 -4.8300 -4.8300 -4.8300 -4.8300 -4.8300 * logK= -4.830000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ho-Propionate++ formula= Ho(CH3CH2COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 238.0013 g 2 species in reaction 1.000 Ho+++ 1.000 Propionate- -2.3535 -2.4873 -2.6100 -2.7443 -2.8663 -2.9776 -3.0796 -3.1734 * logK= -2.610000 deltaH= -16.000000 kJ Ho-Tartrate+ formula= Ho(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 313.0020 g 2 species in reaction 1.000 Tartrate-- 1.000 Ho+++ -5.4300 -5.4300 -5.4300 -5.4300 -5.4300 -5.4300 -5.4300 -5.4300 * logK= -5.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HOCl (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 52.4603 g 2 species in reaction 1.000 OCl- 1.000 H+ -7.7384 -7.6297 -7.5300 -7.4209 -7.3218 -7.2313 -7.1485 -7.0723 * logK= -7.530000 deltaH= 13.000000 kJ HOCN (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 43.0250 g 2 species in reaction 1.000 OCN- 1.000 H+ -3.6131 -3.5436 -3.4800 -3.4104 -3.3471 -3.2893 -3.2364 -3.1877 * logK= -3.480000 deltaH= 8.300000 kJ HoEDTA- formula= Ho(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 453.1434 g 2 species in reaction 1.000 Ho+++ 1.000 EDTA---- -21.2130 -21.1645 -21.1200 -21.0713 -21.0271 -20.9868 -20.9498 -20.9158 * logK= -21.120000 deltaH= 5.800000 kJ HoEGTA- formula= Ho(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 541.2494 g 2 species in reaction 1.000 EGTA---- 1.000 Ho+++ -20.2600 -20.2600 -20.2600 -20.2600 -20.2600 -20.2600 -20.2600 -20.2600 * logK= -20.260000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HoF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 183.9284 g 2 species in reaction 1.000 Ho+++ 1.000 F- -4.3697 -4.4533 -4.5300 -4.6139 -4.6902 -4.7597 -4.8235 -4.8821 * logK= -4.530000 deltaH= -10.000000 kJ HoH-(Malonate)2 (aq) formula= HoH[CH2(COO)2]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 370.0307 g 3 species in reaction 2.000 Malonate-- 1.000 Ho+++ 1.000 H+ -12.2830 -12.4328 -12.5700 -12.7202 -12.8567 -12.9812 -13.0953 -13.2003 * logK= -12.570000 deltaH= -17.900000 kJ HoH-DTPA- formula= HoH(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 554.2482 g 3 species in reaction 1.000 Ho+++ 1.000 H+ 1.000 DTPA----- -28.6900 -28.6900 -28.6900 -28.6900 -28.6900 -28.6900 -28.6900 -28.6900 * logK= -28.690000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HoH-Malonate++ formula= HoH[CH2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 267.9843 g 3 species in reaction 1.000 Malonate-- 1.000 Ho+++ 1.000 H+ -7.3972 -7.4769 -7.5500 -7.6300 -7.7026 -7.7689 -7.8297 -7.8856 * logK= -7.550000 deltaH= -9.530000 kJ HoH-Sal++ formula= HoH(OC6H4COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 302.0447 g 3 species in reaction 1.000 Ho+++ 1.000 H+ 1.000 Sal-- -16.6803 -16.3984 -16.1400 -15.8572 -15.6003 -15.3658 -15.1509 -14.9534 * logK= -16.140000 deltaH= 33.700000 kJ HoH2-(Sal)2+ formula= HoH2(OC6H4COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 439.1594 g 3 species in reaction 1.000 Ho+++ 2.000 H+ 2.000 Sal-- -33.3010 -32.7629 -32.2700 -31.7304 -31.2402 -30.7928 -30.3829 -30.0059 * logK= -32.270000 deltaH= 64.300000 kJ HoHEDTA (aq) formula= HoH(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 454.1513 g 3 species in reaction 1.000 Ho+++ 1.000 H+ 1.000 EDTA---- -21.8300 -21.8300 -21.8300 -21.8300 -21.8300 -21.8300 -21.8300 -21.8300 * logK= -21.830000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HoNO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 226.9349 g 2 species in reaction 1.000 Ho+++ 1.000 NO3- -.4100 -.4100 -.4100 -.4100 -.4100 -.4100 -.4100 -.4100 * logK= -0.410000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HoNTA (aq) formula= Ho[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 353.0465 g 2 species in reaction 1.000 NTA--- 1.000 Ho+++ -13.6672 -13.6739 -13.6800 -13.6867 -13.6928 -13.6984 -13.7035 -13.7082 * logK= -13.680000 deltaH= -0.800000 kJ HoOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 181.9373 g 3 species in reaction 1.000 Ho+++ -1.000 H+ 1.000 H2O 7.4870 7.4870 7.4870 7.4870 7.4870 7.4870 7.4870 7.4870 * logK= 7.487000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HoOH-HEDTA- formula= HoOH(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 457.1750 g 4 species in reaction 1.000 Ho+++ -1.000 H+ 1.000 H2O 1.000 HEDTA--- -8.3400 -8.3400 -8.3400 -8.3400 -8.3400 -8.3400 -8.3400 -8.3400 * logK= -8.340000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HoOHNTA- formula= HoOH[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 370.0538 g 4 species in reaction 1.000 NTA--- 1.000 Ho+++ -1.000 H+ 1.000 H2O -6.3450 -6.3450 -6.3450 -6.3450 -6.3450 -6.3450 -6.3450 -6.3450 * logK= -6.345000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HoSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 260.9916 g 2 species in reaction 1.000 Ho+++ 1.000 SO4-- -3.2693 -3.4367 -3.5900 -3.7578 -3.9103 -4.0495 -4.1770 -4.2942 * logK= -3.590000 deltaH= -20.000000 kJ HPO4-- charge= -2 ion size= 5.0 A b= 0.0000 mole wt.= 95.9793 g 2 species in reaction 1.000 H+ 1.000 PO4--- -12.6155 -12.4900 -12.3750 -12.2491 -12.1348 -12.0304 -11.9348 -11.8468 * logK= -12.375000 deltaH= 15.000000 kJ HS2O3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 113.1341 g 2 species in reaction 1.000 S2O3-- 1.000 H+ -1.6000 -1.6000 -1.6000 -1.6000 -1.6000 -1.6000 -1.6000 -1.6000 * logK= -1.600000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HSCN (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 59.0896 g 2 species in reaction 1.000 H+ 1.000 SCN- 1.1000 1.1000 1.1000 1.1000 1.1000 1.1000 1.1000 1.1000 * logK= 1.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HSeO4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 143.9655 g 2 species in reaction 1.000 H+ 1.000 SeO4-- -1.3312 -1.5237 -1.7000 -1.8930 -2.0684 -2.2284 -2.3750 -2.5099 * logK= -1.700000 deltaH= -23.000000 kJ HSO3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 81.0701 g 2 species in reaction 1.000 H+ 1.000 SO3-- -7.1323 -7.1624 -7.1900 -7.2202 -7.2477 -7.2727 -7.2957 -7.3168 * logK= -7.190000 deltaH= -3.600000 kJ HSO4- charge= -1 ion size= 4.5 A b= 0.0000 mole wt.= 97.0695 g 2 species in reaction 1.000 H+ 1.000 SO4-- -1.6995 -1.8395 -1.9869 -2.1725 -2.3663 -2.5672 -2.7743 -2.9869 * logK= -1.990000 deltaH= -22.000000 kJ * analytic data = -5.3505 .0183412 557.2461 0 0 0 0 HV10O28----- charge= -5 ion size= 0.0 A b= 0.0000 mole wt.= 958.4061 g 3 species in reaction 15.000 H+ -12.000 H2O 10.000 HVO4-- -148.1060 -144.6585 -141.5000 -138.0427 -134.9014 -132.0348 -129.4083 -126.9930 * logK= -141.500000 deltaH= 412.000000 kJ HV2O7--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 214.8867 g 3 species in reaction 1.000 H+ -1.000 H2O 2.000 HVO4-- -10.9616 -10.5641 -10.2000 -9.8014 -9.4392 -9.1087 -8.8059 -8.5275 * logK= -10.200000 deltaH= 47.500000 kJ HV4O13----- charge= -5 ion size= 0.0 A b= 0.0000 mole wt.= 412.7661 g 3 species in reaction 3.000 H+ -3.000 H2O 4.000 HVO4-- -31.3300 -31.3300 -31.3300 -31.3300 -31.3300 -31.3300 -31.3300 -31.3300 * logK= -31.330000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HW7O24----- charge= -5 ion size= 0.0 A b= 0.0000 mole wt.= 1671.9435 g 3 species in reaction 7.000 WO4-- 9.000 H+ -4.000 H2O -76.4992 -73.7545 -71.2400 -68.4876 -65.9868 -63.7046 -61.6136 -59.6907 * logK= -71.240000 deltaH= 328.000000 kJ HWO4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 248.8555 g 2 species in reaction 1.000 WO4-- 1.000 H+ -3.4116 -3.5203 -3.6200 -3.7291 -3.8282 -3.9187 -4.0015 -4.0777 * logK= -3.620000 deltaH= -13.000000 kJ In(HS)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 180.9618 g 2 species in reaction 1.000 In+++ 2.000 HS- -18.0200 -18.0200 -18.0200 -18.0200 -18.0200 -18.0200 -18.0200 -18.0200 * logK= -18.020000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C In(NO2)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 206.8290 g 2 species in reaction 1.000 In+++ 2.000 NO2- -5.0200 -5.0200 -5.0200 -5.0200 -5.0200 -5.0200 -5.0200 -5.0200 * logK= -5.020000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C In(NO2)3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 252.8345 g 2 species in reaction 1.000 In+++ 3.000 NO2- -6.2300 -6.2300 -6.2300 -6.2300 -6.2300 -6.2300 -6.2300 -6.2300 * logK= -6.230000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C In(NTA)2--- formula= In[N(CH2COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 491.0510 g 2 species in reaction 2.000 NTA--- 1.000 In+++ -25.6200 -25.6200 -25.6200 -25.6200 -25.6200 -25.6200 -25.6200 -25.6200 * logK= -25.620000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C In(OH)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 148.8326 g 3 species in reaction -2.000 H+ 1.000 In+++ 2.000 H2O 8.7179 8.2357 7.7940 7.3105 6.8712 6.4703 6.1029 5.7651 * logK= 7.794000 deltaH= -57.620000 kJ In(OH)3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 165.8399 g 3 species in reaction -3.000 H+ 1.000 In+++ 3.000 H2O 12.3910 12.3910 12.3910 12.3910 12.3910 12.3910 12.3910 12.3910 * logK= 12.391000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C In(OH)4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 182.8472 g 3 species in reaction -4.000 H+ 1.000 In+++ 4.000 H2O 22.0880 22.0880 22.0880 22.0880 22.0880 22.0880 22.0880 22.0880 * logK= 22.088000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C In(SO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 306.9412 g 2 species in reaction 1.000 In+++ 2.000 SO4-- -4.2000 -4.2000 -4.2000 -4.2000 -4.2000 -4.2000 -4.2000 -4.2000 * logK= -4.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C In-(Malonate)2- formula= In[CH2(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 318.9108 g 2 species in reaction 2.000 Malonate-- 1.000 In+++ -11.8500 -11.8500 -11.8500 -11.8500 -11.8500 -11.8500 -11.8500 -11.8500 * logK= -11.850000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C In-(Oxalate)2- formula= In[(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 290.8572 g 2 species in reaction 1.000 In+++ 2.000 Oxalate-- -13.1900 -13.1900 -13.1900 -13.1900 -13.1900 -13.1900 -13.1900 -13.1900 * logK= -13.190000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C In-(Oxalate)3--- formula= In[(COO)2]3--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 378.8768 g 2 species in reaction 1.000 In+++ 3.000 Oxalate-- -15.8200 -15.8200 -15.8200 -15.8200 -15.8200 -15.8200 -15.8200 -15.8200 * logK= -15.820000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C In-DTPA-- formula= In(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 503.1283 g 2 species in reaction 1.000 In+++ 1.000 DTPA----- -32.5200 -32.5200 -32.5200 -32.5200 -32.5200 -32.5200 -32.5200 -32.5200 * logK= -32.520000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C In-HEDTA (aq) formula= In(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 390.0557 g 2 species in reaction 1.000 In+++ 1.000 HEDTA--- -22.1400 -22.1400 -22.1400 -22.1400 -22.1400 -22.1400 -22.1400 -22.1400 * logK= -22.140000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C In-Malonate+ formula= In[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 216.8644 g 2 species in reaction 1.000 Malonate-- 1.000 In+++ -7.2600 -7.2600 -7.2600 -7.2600 -7.2600 -7.2600 -7.2600 -7.2600 * logK= -7.260000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C In-Oxalate+ formula= In[(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 202.8376 g 2 species in reaction 1.000 In+++ 1.000 Oxalate-- -7.3000 -7.3000 -7.3000 -7.3000 -7.3000 -7.3000 -7.3000 -7.3000 * logK= -7.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C InBr++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 194.7220 g 2 species in reaction 1.000 Br- 1.000 In+++ -2.7279 -2.7447 -2.7600 -2.7768 -2.7920 -2.8059 -2.8187 -2.8304 * logK= -2.760000 deltaH= -2.000000 kJ InBr2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 274.6260 g 2 species in reaction 2.000 Br- 1.000 In+++ -4.2297 -4.2925 -4.3500 -4.4129 -4.4701 -4.5223 -4.5701 -4.6141 * logK= -4.350000 deltaH= -7.500000 kJ InCl++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 150.2710 g 2 species in reaction 1.000 Cl- 1.000 In+++ -2.9898 -3.0317 -3.0700 -3.1120 -3.1501 -3.1849 -3.2167 -3.2461 * logK= -3.070000 deltaH= -5.000000 kJ InCl2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 185.7240 g 2 species in reaction 2.000 Cl- 1.000 In+++ -4.8219 -4.8470 -4.8700 -4.8952 -4.9180 -4.9389 -4.9580 -4.9756 * logK= -4.870000 deltaH= -3.000000 kJ InCl3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 221.1770 g 2 species in reaction 3.000 Cl- 1.000 In+++ -4.9709 -5.2470 -5.5000 -5.7769 -6.0285 -6.2581 -6.4685 -6.6620 * logK= -5.500000 deltaH= -33.000000 kJ InEDTA- formula= In(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 403.0314 g 2 species in reaction 1.000 In+++ 1.000 EDTA---- -27.9410 -27.6900 -27.4600 -27.2083 -26.9795 -26.7708 -26.5795 -26.4037 * logK= -27.460000 deltaH= 30.000000 kJ InF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 133.8164 g 2 species in reaction 1.000 In+++ 1.000 F- -4.4897 -4.5733 -4.6500 -4.7339 -4.8102 -4.8797 -4.9435 -5.0021 * logK= -4.650000 deltaH= -10.000000 kJ InF2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 152.8148 g 2 species in reaction 1.000 In+++ 2.000 F- -7.6312 -7.8237 -8.0000 -8.1930 -8.3684 -8.5284 -8.6750 -8.8099 * logK= -8.000000 deltaH= -23.000000 kJ InF3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 171.8132 g 2 species in reaction 1.000 In+++ 3.000 F- -9.8350 -10.0777 -10.3000 -10.5434 -10.7645 -10.9662 -11.1511 -11.3211 * logK= -10.300000 deltaH= -29.000000 kJ InF4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 190.8116 g 2 species in reaction 1.000 In+++ 4.000 F- -10.7907 -11.1087 -11.4000 -11.7189 -12.0086 -12.2730 -12.5153 -12.7380 * logK= -11.400000 deltaH= -38.000000 kJ InH-Oxalate++ formula= InH[(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 203.8455 g 3 species in reaction 1.000 H+ 1.000 In+++ 1.000 Oxalate-- -8.1600 -8.1600 -8.1600 -8.1600 -8.1600 -8.1600 -8.1600 -8.1600 * logK= -8.160000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C InH2PO4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 211.8052 g 3 species in reaction 2.000 H+ 1.000 In+++ 1.000 PO4--- -22.6100 -22.6100 -22.6100 -22.6100 -22.6100 -22.6100 -22.6100 -22.6100 * logK= -22.610000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C InHEDTA (aq) formula= InH(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 404.0393 g 3 species in reaction 1.000 H+ 1.000 In+++ 1.000 EDTA---- -27.5400 -27.5400 -27.5400 -27.5400 -27.5400 -27.5400 -27.5400 -27.5400 * logK= -27.540000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C InHNTA+ formula= InH[N(CH2COO)3]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 303.9424 g 3 species in reaction 1.000 NTA--- 1.000 H+ 1.000 In+++ -18.6000 -18.6000 -18.6000 -18.6000 -18.6000 -18.6000 -18.6000 -18.6000 * logK= -18.600000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C InHS++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 147.8899 g 2 species in reaction 1.000 In+++ 1.000 HS- -11.6100 -11.6100 -11.6100 -11.6100 -11.6100 -11.6100 -11.6100 -11.6100 * logK= -11.610000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C InI++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 241.7224 g 2 species in reaction 1.000 In+++ 1.000 I- -2.4221 -2.4053 -2.3900 -2.3732 -2.3580 -2.3441 -2.3313 -2.3196 * logK= -2.390000 deltaH= 2.000000 kJ InI2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 368.6268 g 2 species in reaction 1.000 In+++ 2.000 I- -3.8581 -3.8330 -3.8100 -3.7848 -3.7620 -3.7411 -3.7220 -3.7044 * logK= -3.810000 deltaH= 3.000000 kJ InNO2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 160.8235 g 2 species in reaction 1.000 In+++ 1.000 NO2- -3.2100 -3.2100 -3.2100 -3.2100 -3.2100 -3.2100 -3.2100 -3.2100 * logK= -3.210000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C InNO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 176.8229 g 2 species in reaction 1.000 NO3- 1.000 In+++ -.9000 -.9000 -.9000 -.9000 -.9000 -.9000 -.9000 -.9000 * logK= -0.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C InNTA (aq) formula= In[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 302.9345 g 2 species in reaction 1.000 NTA--- 1.000 In+++ -15.7300 -15.7300 -15.7300 -15.7300 -15.7300 -15.7300 -15.7300 -15.7300 * logK= -15.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C InOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 131.8253 g 3 species in reaction -1.000 H+ 1.000 In+++ 1.000 H2O 4.2767 4.0942 3.9270 3.7440 3.5777 3.4259 3.2869 3.1590 * logK= 3.927000 deltaH= -21.810000 kJ InOH-DTPA--- formula= InOH(C14H18N3O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 520.1356 g 4 species in reaction -1.000 H+ 1.000 In+++ 1.000 DTPA----- 1.000 H2O -29.9900 -29.9900 -29.9900 -29.9900 -29.9900 -29.9900 -29.9900 -29.9900 * logK= -29.990000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C InSCN++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 172.8997 g 2 species in reaction 1.000 In+++ 1.000 SCN- -3.4138 -3.3544 -3.3000 -3.2404 -3.1863 -3.1369 -3.0916 -3.0500 * logK= -3.300000 deltaH= 7.100000 kJ InSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 210.8796 g 2 species in reaction 1.000 In+++ 1.000 SO4-- -3.0300 -3.0300 -3.0300 -3.0300 -3.0300 -3.0300 -3.0300 -3.0300 * logK= -3.030000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C K-Acetate (aq) formula= K(CH3COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 98.1465 g 2 species in reaction 1.000 Acetate- 1.000 K+ .3341 .3007 .2700 .2364 .2059 .1781 .1526 .1292 * logK= 0.270000 deltaH= -4.000000 kJ K-Citrate-- formula= K[C3H5O(COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 228.2033 g 2 species in reaction 1.000 Citrate--- 1.000 K+ -1.0134 -1.0586 -1.1000 -1.1453 -1.1865 -1.2241 -1.2585 -1.2901 * logK= -1.100000 deltaH= -5.400000 kJ K-DTPA---- formula= K(C14H18N3O10)---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 427.4123 g 2 species in reaction 1.000 DTPA----- 1.000 K+ -1.9700 -1.9700 -1.9700 -1.9700 -1.9700 -1.9700 -1.9700 -1.9700 * logK= -1.970000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C K-Malate- formula= K(C4H4O5)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 171.1746 g 2 species in reaction 1.000 Malate-- 1.000 K+ -.3343 -.3686 -.4000 -.4344 -.4657 -.4942 -.5203 -.5444 * logK= -0.400000 deltaH= -4.100000 kJ K-Malonate- formula= K[CH2(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 141.1484 g 2 species in reaction 1.000 Malonate-- 1.000 K+ -.8359 -.8693 -.9000 -.9336 -.9641 -.9919 -1.0174 -1.0408 * logK= -0.900000 deltaH= -4.000000 kJ K-Oxalate- formula= K[(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 127.1216 g 2 species in reaction 1.000 Oxalate-- 1.000 K+ -.6076 -.7080 -.8000 -.9007 -.9922 -1.0757 -1.1522 -1.2225 * logK= -0.800000 deltaH= -12.000000 kJ K-Phthalate- formula= K[C6H4(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 203.2192 g 2 species in reaction 1.000 Phthalate-- 1.000 K+ -.6359 -.6693 -.7000 -.7336 -.7641 -.7919 -.8174 -.8408 * logK= -0.700000 deltaH= -4.000000 kJ K-Succinate- formula= K[(CH2)2(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 155.1752 g 2 species in reaction 1.000 K+ 1.000 Succinate-- -.7959 -.8293 -.8600 -.8936 -.9241 -.9519 -.9774 -1.0008 * logK= -0.860000 deltaH= -4.000000 kJ K-Tartrate- formula= K(C4H4O6)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 187.1740 g 2 species in reaction 1.000 Tartrate-- 1.000 K+ -.8300 -.8300 -.8300 -.8300 -.8300 -.8300 -.8300 -.8300 * logK= -0.830000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C K2HPO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 174.1833 g 3 species in reaction 1.000 H+ 1.000 PO4--- 2.000 K+ -13.5000 -13.5000 -13.5000 -13.5000 -13.5000 -13.5000 -13.5000 -13.5000 * logK= -13.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C K2PO4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 173.1754 g 2 species in reaction 1.000 PO4--- 2.000 K+ -2.2600 -2.2600 -2.2600 -2.2600 -2.2600 -2.2600 -2.2600 -2.2600 * logK= -2.260000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C K2V10O28---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 1035.6022 g 4 species in reaction 14.000 H+ -12.000 H2O 2.000 K+ 10.000 HVO4-- -139.9000 -139.9000 -139.9000 -139.9000 -139.9000 -139.9000 -139.9000 -139.9000 * logK= -139.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C KCl (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 74.5550 g 2 species in reaction 1.000 Cl- 1.000 K+ .2359 .2693 .3000 .3336 .3641 .3919 .4174 .4408 * logK= 0.300000 deltaH= 4.000000 kJ KClO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 138.5526 g 2 species in reaction 1.000 ClO4- 1.000 K+ .0300 .0300 .0300 .0300 .0300 .0300 .0300 .0300 * logK= 0.030000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C KCr2O7- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 255.0898 g 4 species in reaction 2.000 CrO4-- 2.000 H+ -1.000 H2O 1.000 K+ -16.0255 -15.6573 -15.3200 -14.9508 -14.6153 -14.3092 -14.0287 -13.7707 * logK= -15.320000 deltaH= 44.000000 kJ KCrO4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 155.0956 g 2 species in reaction 1.000 CrO4-- 1.000 K+ -.5700 -.5700 -.5700 -.5700 -.5700 -.5700 -.5700 -.5700 * logK= -0.570000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C KEDTA--- formula= K(C10H12N2O8)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 327.3154 g 2 species in reaction 1.000 EDTA---- 1.000 K+ -1.6500 -1.6500 -1.6500 -1.6500 -1.6500 -1.6500 -1.6500 -1.6500 * logK= -1.650000 deltaH= 0.000000 kJ KF (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 58.1004 g 2 species in reaction 1.000 F- 1.000 K+ .3400 .3400 .3400 .3400 .3400 .3400 .3400 .3400 * logK= 0.340000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C KFe(CN)6-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 251.0552 g 3 species in reaction 1.000 Fe+++ 1.000 K+ 6.000 CN- -49.7059 -47.2709 -45.0400 -42.5981 -40.3794 -38.3546 -36.4995 -34.7935 * logK= -45.040000 deltaH= 291.000000 kJ KFe(CN)6--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 251.0552 g 3 species in reaction 1.000 Fe++ 1.000 K+ 6.000 CN- -43.4244 -40.4631 -37.7500 -34.7802 -32.0820 -29.6196 -27.3635 -25.2888 * logK= -37.750000 deltaH= 353.900000 kJ KH-Sal (aq) formula= KH(OC6H4COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 176.2167 g 3 species in reaction 1.000 H+ 1.000 Sal-- 1.000 K+ -13.4100 -13.4100 -13.4100 -13.4100 -13.4100 -13.4100 -13.4100 -13.4100 * logK= -13.410000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C KH2PO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 136.0892 g 3 species in reaction 2.000 H+ 1.000 PO4--- 1.000 K+ -19.8730 -19.8730 -19.8730 -19.8730 -19.8730 -19.8730 -19.8730 -19.8730 * logK= -19.873000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C KHPO4- charge= -1 ion size= 5.4 A b= 0.0000 mole wt.= 135.0813 g 3 species in reaction 1.000 H+ 1.000 PO4--- 1.000 K+ -13.2550 -13.2550 -13.2550 -13.2550 -13.2550 -13.2550 -13.2550 -13.2550 * logK= -13.255000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C KHV10O28---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 997.5081 g 4 species in reaction 15.000 H+ -12.000 H2O 1.000 K+ 10.000 HVO4-- -142.9100 -142.9100 -142.9100 -142.9100 -142.9100 -142.9100 -142.9100 -142.9100 * logK= -142.910000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C KI (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 166.0064 g 2 species in reaction 1.000 I- 1.000 K+ .4641 .4307 .4000 .3664 .3359 .3081 .2826 .2592 * logK= 0.400000 deltaH= -4.000000 kJ KNO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 101.1069 g 2 species in reaction 1.000 NO3- 1.000 K+ -.0024 .0980 .1900 .2907 .3822 .4657 .5422 .6125 * logK= 0.190000 deltaH= 12.000000 kJ KNTA-- formula= K[N(CH2COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 227.2185 g 2 species in reaction 1.000 NTA--- 1.000 K+ -.9835 -1.1173 -1.2400 -1.3743 -1.4963 -1.6076 -1.7096 -1.8034 * logK= -1.240000 deltaH= -16.000000 kJ KOH (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 56.1093 g 3 species in reaction -1.000 H+ 1.000 H2O 1.000 K+ 14.6519 14.1848 13.7570 13.2887 12.8632 12.4748 12.1190 11.7919 * logK= 13.757000 deltaH= -55.810000 kJ KPO4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 134.0734 g 2 species in reaction 1.000 PO4--- 1.000 K+ -1.1895 -1.3150 -1.4300 -1.5559 -1.6702 -1.7746 -1.8702 -1.9582 * logK= -1.430000 deltaH= -15.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C KS2O3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 151.2282 g 2 species in reaction 1.000 S2O3-- 1.000 K+ -.8300 -.8978 -.9600 -1.0281 -1.0899 -1.1463 -1.1980 -1.2456 * logK= -0.960000 deltaH= -8.110000 kJ KSO3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 119.1642 g 2 species in reaction 1.000 K+ 1.000 SO3-- -.6300 -.6300 -.6300 -.6300 -.6300 -.6300 -.6300 -.6300 * logK= -0.630000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C KSO4- charge= -1 ion size= 5.4 A b= 0.0000 mole wt.= 135.1636 g 2 species in reaction 1.000 K+ 1.000 SO4-- -.6400 -.7479 -.8467 -.9550 -1.0533 -1.1430 -1.2252 -1.3008 * logK= -0.850000 deltaH= -4.100000 kJ * analytic data = 3.106 0 -673.6 0 0 0 0 KV10O28----- charge= -5 ion size= 0.0 A b= 0.0000 mole wt.= 996.5002 g 4 species in reaction 14.000 H+ -12.000 H2O 1.000 K+ 10.000 HVO4-- -137.8300 -137.8300 -137.8300 -137.8300 -137.8300 -137.8300 -137.8300 -137.8300 * logK= -137.830000 deltaH= 0.000000 kJ La(CO3)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 258.9244 g 2 species in reaction 1.000 La+++ 2.000 CO3-- -11.8600 -11.8600 -11.8600 -11.8600 -11.8600 -11.8600 -11.8600 -11.8600 * logK= -11.860000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C La(NTA)2--- formula= La[N(CH2COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 515.1390 g 2 species in reaction 2.000 NTA--- 1.000 La+++ -19.8995 -19.8267 -19.7600 -19.6870 -19.6207 -19.5601 -19.5047 -19.4537 * logK= -19.760000 deltaH= 8.700000 kJ La(SO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 331.0292 g 2 species in reaction 1.000 La+++ 2.000 SO4-- -4.7388 -5.0317 -5.3000 -5.5937 -5.8606 -6.1041 -6.3272 -6.5324 * logK= -5.300000 deltaH= -35.000000 kJ La-(Acetate)2+ formula= La(CH3COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 256.9950 g 2 species in reaction 2.000 Acetate- 1.000 La+++ -3.8795 -4.0050 -4.1200 -4.2459 -4.3602 -4.4646 -4.5602 -4.6482 * logK= -4.120000 deltaH= -15.000000 kJ La-(Acetate)3 (aq) formula= La(CH3COO)3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 316.0395 g 2 species in reaction 3.000 Acetate- 1.000 La+++ -4.5054 -4.6643 -4.8100 -4.9694 -5.1143 -5.2465 -5.3676 -5.4790 * logK= -4.810000 deltaH= -19.000000 kJ La-(Benzoate)2+ formula= La(C6H5COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 381.1366 g 2 species in reaction 1.000 La+++ 2.000 Benzoate- -4.6400 -4.6400 -4.6400 -4.6400 -4.6400 -4.6400 -4.6400 -4.6400 * logK= -4.640000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C La-(Formate)2+ formula= La[HCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 228.9414 g 2 species in reaction 2.000 Formate- 1.000 La+++ -3.1700 -3.1700 -3.1700 -3.1700 -3.1700 -3.1700 -3.1700 -3.1700 * logK= -3.170000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C La-(iButyrate)2+ formula= La[(CH3)2CHCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 313.1022 g 2 species in reaction 2.000 iButyrate- 1.000 La+++ -3.0992 -3.3083 -3.5000 -3.7098 -3.9004 -4.0743 -4.2337 -4.3803 * logK= -3.500000 deltaH= -25.000000 kJ La-(Lactate)2+ formula= La[CH3CH(OH)COO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 317.0474 g 2 species in reaction 2.000 Lactate- 1.000 La+++ -5.6124 -5.5120 -5.4200 -5.3193 -5.2278 -5.1443 -5.0678 -4.9975 * logK= -5.420000 deltaH= 12.000000 kJ La-(Lactate)3 (aq) formula= La[CH3CH(OH)COO]3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 406.1181 g 2 species in reaction 3.000 Lactate- 1.000 La+++ -7.2607 -7.0933 -6.9400 -6.7722 -6.6197 -6.4805 -6.3530 -6.2358 * logK= -6.940000 deltaH= 20.000000 kJ La-(Malate)2- formula= La(C4H4O5)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 403.0512 g 2 species in reaction 2.000 Malate-- 1.000 La+++ -8.8800 -8.8800 -8.8800 -8.8800 -8.8800 -8.8800 -8.8800 -8.8800 * logK= -8.880000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C La-(Malonate)2- formula= La[CH2(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 342.9988 g 2 species in reaction 2.000 Malonate-- 1.000 La+++ -7.4793 -7.6467 -7.8000 -7.9678 -8.1203 -8.2595 -8.3870 -8.5042 * logK= -7.800000 deltaH= -20.000000 kJ La-(Oxalate)2- formula= La[(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 314.9452 g 2 species in reaction 1.000 La+++ 2.000 Oxalate-- -9.5500 -9.5500 -9.5500 -9.5500 -9.5500 -9.5500 -9.5500 -9.5500 * logK= -9.550000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C La-(Propionate)2+ formula= La(CH3CH2COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 285.0486 g 2 species in reaction 2.000 Propionate- 1.000 La+++ -3.8774 -4.0197 -4.1500 -4.2927 -4.4223 -4.5406 -4.6489 -4.7486 * logK= -4.150000 deltaH= -17.000000 kJ La-(Tartrate)2- formula= La(C4H4O6)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 435.0500 g 2 species in reaction 2.000 Tartrate-- 1.000 La+++ -6.8524 -7.2374 -7.5900 -7.9760 -8.3267 -8.6468 -8.9400 -9.2097 * logK= -7.590000 deltaH= -46.000000 kJ La-Acetate++ formula= La(CH3COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 197.9505 g 2 species in reaction 1.000 Acetate- 1.000 La+++ -2.4025 -2.4795 -2.5500 -2.6272 -2.6973 -2.7614 -2.8200 -2.8739 * logK= -2.550000 deltaH= -9.200000 kJ La-Benzoate++ formula= La(C6H5COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 260.0213 g 2 species in reaction 1.000 La+++ 1.000 Benzoate- -2.4433 -2.5094 -2.5700 -2.6363 -2.6965 -2.7515 -2.8019 -2.8482 * logK= -2.570000 deltaH= -7.900000 kJ La-Citrate (aq) formula= La[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 328.0073 g 2 species in reaction 1.000 Citrate--- 1.000 La+++ -9.1800 -9.1800 -9.1800 -9.1800 -9.1800 -9.1800 -9.1800 -9.1800 * logK= -9.180000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C La-DTPA-- formula= La(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 527.2163 g 2 species in reaction 1.000 La+++ 1.000 DTPA----- -23.0627 -22.8787 -22.7100 -22.5254 -22.3576 -22.2046 -22.0643 -21.9354 * logK= -22.710000 deltaH= 22.000000 kJ La-Formate++ formula= La[HCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 183.9237 g 2 species in reaction 1.000 Formate- 1.000 La+++ -1.7500 -1.7500 -1.7500 -1.7500 -1.7500 -1.7500 -1.7500 -1.7500 * logK= -1.750000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C La-Glutarate+ formula= La[C3H6(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 269.0060 g 2 species in reaction 1.000 La+++ 1.000 Glutarate-- -3.6276 -3.7280 -3.8200 -3.9207 -4.0122 -4.0957 -4.1722 -4.2425 * logK= -3.820000 deltaH= -12.000000 kJ La-Glycine++ formula= La[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 212.9651 g 2 species in reaction 1.000 Glycine- 1.000 La+++ -3.7500 -3.7500 -3.7500 -3.7500 -3.7500 -3.7500 -3.7500 -3.7500 * logK= -3.750000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C La-HEDTA (aq) formula= La(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 414.1437 g 2 species in reaction 1.000 La+++ 1.000 HEDTA--- -15.6926 -15.5503 -15.4200 -15.2773 -15.1477 -15.0294 -14.9211 -14.8214 * logK= -15.420000 deltaH= 17.000000 kJ La-iButyrate++ formula= La[(CH3)2CHCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 226.0041 g 2 species in reaction 1.000 iButyrate- 1.000 La+++ -2.2255 -2.3427 -2.4500 -2.5675 -2.6742 -2.7716 -2.8609 -2.9430 * logK= -2.450000 deltaH= -14.000000 kJ La-iPhthalate+ formula= La[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 303.0232 g 2 species in reaction 1.000 iPhthalate-- 1.000 La+++ -3.2155 -3.3327 -3.4400 -3.5575 -3.6642 -3.7616 -3.8509 -3.9330 * logK= -3.440000 deltaH= -14.000000 kJ La-Lactate++ formula= La[CH3CH(OH)COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 227.9767 g 2 species in reaction 1.000 Lactate- 1.000 La+++ -3.2658 -3.2106 -3.1600 -3.1046 -3.0543 -3.0084 -2.9663 -2.9276 * logK= -3.160000 deltaH= 6.600000 kJ La-Malate+ formula= La(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 270.9786 g 2 species in reaction 1.000 Malate-- 1.000 La+++ -5.6600 -5.6600 -5.6600 -5.6600 -5.6600 -5.6600 -5.6600 -5.6600 * logK= -5.660000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C La-Malonate+ formula= La[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 240.9524 g 2 species in reaction 1.000 Malonate-- 1.000 La+++ -4.6995 -4.8250 -4.9400 -5.0659 -5.1802 -5.2846 -5.3802 -5.4682 * logK= -4.940000 deltaH= -15.000000 kJ La-Oxalate+ formula= La[(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 226.9256 g 2 species in reaction 1.000 La+++ 1.000 Oxalate-- -5.9900 -5.9900 -5.9900 -5.9900 -5.9900 -5.9900 -5.9900 -5.9900 * logK= -5.990000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C La-Phthalate+ formula= La[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 303.0232 g 2 species in reaction 1.000 Phthalate-- 1.000 La+++ -4.7400 -4.7400 -4.7400 -4.7400 -4.7400 -4.7400 -4.7400 -4.7400 * logK= -4.740000 deltaH= 0.000000 kJ La-Propionate++ formula= La(CH3CH2COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 211.9773 g 2 species in reaction 1.000 Propionate- 1.000 La+++ -2.3797 -2.4633 -2.5400 -2.6239 -2.7002 -2.7697 -2.8335 -2.8921 * logK= -2.540000 deltaH= -10.000000 kJ La-Succinate+ formula= La[(CH2)2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 254.9792 g 2 species in reaction 1.000 La+++ 1.000 Succinate-- -3.7836 -3.8757 -3.9600 -4.0523 -4.1362 -4.2127 -4.2828 -4.3473 * logK= -3.960000 deltaH= -11.000000 kJ La-Tartrate+ formula= La(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 286.9780 g 2 species in reaction 1.000 Tartrate-- 1.000 La+++ -4.6100 -4.6100 -4.6100 -4.6100 -4.6100 -4.6100 -4.6100 -4.6100 * logK= -4.610000 deltaH= 0.000000 kJ LaCl++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 174.3590 g 2 species in reaction 1.000 Cl- 1.000 La+++ -.4498 -.4917 -.5300 -.5720 -.6101 -.6449 -.6767 -.7061 * logK= -0.530000 deltaH= -5.000000 kJ LaCO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 198.9152 g 2 species in reaction 1.000 La+++ 1.000 CO3-- -6.9800 -6.9800 -6.9800 -6.9800 -6.9800 -6.9800 -6.9800 -6.9800 * logK= -6.980000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LaEDTA- formula= La(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 427.1194 g 2 species in reaction 1.000 EDTA---- 1.000 La+++ -18.1124 -18.0120 -17.9200 -17.8193 -17.7278 -17.6443 -17.5678 -17.4975 * logK= -17.920000 deltaH= 12.000000 kJ LaEGTA- formula= La(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 515.2254 g 2 species in reaction 1.000 EGTA---- 1.000 La+++ -18.5988 -18.4063 -18.2300 -18.0370 -17.8616 -17.7016 -17.5550 -17.4201 * logK= -18.230000 deltaH= 23.000000 kJ LaF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 157.9044 g 2 species in reaction 1.000 La+++ 1.000 F- -3.4076 -3.5080 -3.6000 -3.7007 -3.7922 -3.8757 -3.9522 -4.0225 * logK= -3.600000 deltaH= -12.000000 kJ LaH-(Malonate)2 (aq) formula= LaH[CH2(COO)2]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 344.0067 g 3 species in reaction 2.000 Malonate-- 1.000 H+ 1.000 La+++ -11.9114 -12.0620 -12.2000 -12.3510 -12.4883 -12.6135 -12.7283 -12.8338 * logK= -12.200000 deltaH= -18.000000 kJ LaH-DTPA- formula= LaH(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 528.2242 g 3 species in reaction 1.000 H+ 1.000 La+++ 1.000 DTPA----- -25.7400 -25.7400 -25.7400 -25.7400 -25.7400 -25.7400 -25.7400 -25.7400 * logK= -25.740000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LaH-Malate++ formula= LaH(C4H4O5)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 271.9865 g 3 species in reaction 1.000 H+ 1.000 Malate-- 1.000 La+++ -7.8400 -7.8400 -7.8400 -7.8400 -7.8400 -7.8400 -7.8400 -7.8400 * logK= -7.840000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LaH-Malonate++ formula= LaH[CH2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 241.9603 g 3 species in reaction 1.000 Malonate-- 1.000 H+ 1.000 La+++ -8.0029 -8.0692 -8.1300 -8.1965 -8.2570 -8.3122 -8.3627 -8.4092 * logK= -8.130000 deltaH= -7.930000 kJ LaH-Sal++ formula= LaH(OC6H4COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 276.0207 g 3 species in reaction 1.000 H+ 1.000 Sal-- 1.000 La+++ -16.3203 -16.0384 -15.7800 -15.4972 -15.2403 -15.0058 -14.7909 -14.5934 * logK= -15.780000 deltaH= 33.700000 kJ LaH-Succinate++ formula= LaH[(CH2)2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 255.9871 g 3 species in reaction 1.000 H+ 1.000 La+++ 1.000 Succinate-- -7.7600 -7.7600 -7.7600 -7.7600 -7.7600 -7.7600 -7.7600 -7.7600 * logK= -7.760000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LaH2-(Sal)2+ formula= LaH2(OC6H4COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 413.1354 g 3 species in reaction 2.000 H+ 2.000 Sal-- 1.000 La+++ -33.1347 -32.5790 -32.0700 -31.5128 -31.0065 -30.5445 -30.1212 -29.7320 * logK= -32.070000 deltaH= 66.400000 kJ LaH2-(Succinate)2+ formula= LaH2[(CH2)2(COO)2]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 373.0682 g 3 species in reaction 2.000 H+ 1.000 La+++ 2.000 Succinate-- -14.9500 -14.9500 -14.9500 -14.9500 -14.9500 -14.9500 -14.9500 -14.9500 * logK= -14.950000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LaH2PO4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 235.8932 g 3 species in reaction 2.000 H+ 1.000 PO4--- 1.000 La+++ -21.9900 -21.9900 -21.9900 -21.9900 -21.9900 -21.9900 -21.9900 -21.9900 * logK= -21.990000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LaHEDTA (aq) formula= LaH(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 428.1273 g 3 species in reaction 1.000 H+ 1.000 EDTA---- 1.000 La+++ -20.3800 -20.3800 -20.3800 -20.3800 -20.3800 -20.3800 -20.3800 -20.3800 * logK= -20.380000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LaNO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 200.9109 g 2 species in reaction 1.000 NO3- 1.000 La+++ -.7100 -.7100 -.7100 -.7100 -.7100 -.7100 -.7100 -.7100 * logK= -0.710000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LaNTA (aq) formula= La[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 327.0225 g 2 species in reaction 1.000 NTA--- 1.000 La+++ -12.4381 -12.4130 -12.3900 -12.3648 -12.3420 -12.3211 -12.3020 -12.2844 * logK= -12.390000 deltaH= 3.000000 kJ LaOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 155.9133 g 3 species in reaction -1.000 H+ 1.000 La+++ 1.000 H2O 8.4970 8.4970 8.4970 8.4970 8.4970 8.4970 8.4970 8.4970 * logK= 8.497000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LaOH-HEDTA- formula= LaOH(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 431.1510 g 4 species in reaction -1.000 H+ 1.000 La+++ 1.000 H2O 1.000 HEDTA--- -4.8800 -4.8800 -4.8800 -4.8800 -4.8800 -4.8800 -4.8800 -4.8800 * logK= -4.880000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LaOHNTA- formula= LaOH[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 344.0298 g 4 species in reaction 1.000 NTA--- -1.000 H+ 1.000 La+++ 1.000 H2O -4.2950 -4.2950 -4.2950 -4.2950 -4.2950 -4.2950 -4.2950 -4.2950 * logK= -4.295000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LaS2O3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 251.0322 g 2 species in reaction 1.000 S2O3-- 1.000 La+++ -2.9900 -2.9900 -2.9900 -2.9900 -2.9900 -2.9900 -2.9900 -2.9900 * logK= -2.990000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LaSCN++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 196.9877 g 2 species in reaction 1.000 SCN- 1.000 La+++ -.7300 -.7300 -.7300 -.7300 -.7300 -.7300 -.7300 -.7300 * logK= -0.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LaSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 234.9676 g 2 species in reaction 1.000 La+++ 1.000 SO4-- -3.3514 -3.5020 -3.6400 -3.7910 -3.9283 -4.0535 -4.1683 -4.2738 * logK= -3.640000 deltaH= -18.000000 kJ Li-Acetate (aq) formula= Li(CH3COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 65.9835 g 2 species in reaction 1.000 Li+ 1.000 Acetate- -.2800 -.2800 -.2800 -.2800 -.2800 -.2800 -.2800 -.2800 * logK= -0.280000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Li-Citrate-- formula= Li[C3H5O(COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 196.0403 g 2 species in reaction 1.000 Li+ 1.000 Citrate--- -1.4700 -1.4700 -1.4700 -1.4700 -1.4700 -1.4700 -1.4700 -1.4700 * logK= -1.470000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Li-DTPA---- formula= Li(C14H18N3O10)---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 395.2493 g 2 species in reaction 1.000 Li+ 1.000 DTPA----- -4.1700 -4.1700 -4.1700 -4.1700 -4.1700 -4.1700 -4.1700 -4.1700 * logK= -4.170000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Li-Lactate (aq) formula= Li[CH3CH(OH)COO] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 96.0097 g 2 species in reaction 1.000 Li+ 1.000 Lactate- -.2000 -.2000 -.2000 -.2000 -.2000 -.2000 -.2000 -.2000 * logK= -0.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Li-Malate- formula= Li(C4H4O5)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 139.0116 g 2 species in reaction 1.000 Li+ 1.000 Malate-- -.8100 -.8100 -.8100 -.8100 -.8100 -.8100 -.8100 -.8100 * logK= -0.810000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Li-Malonate- formula= Li[CH2(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 108.9854 g 2 species in reaction 1.000 Malonate-- 1.000 Li+ -.9717 -1.0387 -1.1000 -1.1671 -1.2281 -1.2838 -1.3348 -1.3817 * logK= -1.100000 deltaH= -8.000000 kJ Li-Oxalate- formula= Li[(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 94.9586 g 2 species in reaction 1.000 Li+ 1.000 Oxalate-- -1.2000 -1.2000 -1.2000 -1.2000 -1.2000 -1.2000 -1.2000 -1.2000 * logK= -1.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Li-Phthalate- formula= Li[C6H4(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 171.0562 g 2 species in reaction 1.000 Li+ 1.000 Phthalate-- -.9000 -.9000 -.9000 -.9000 -.9000 -.9000 -.9000 -.9000 * logK= -0.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Li-Tartrate- formula= Li(C4H4O6)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 155.0110 g 2 species in reaction 1.000 Tartrate-- 1.000 Li+ -1.1300 -1.1300 -1.1300 -1.1300 -1.1300 -1.1300 -1.1300 -1.1300 * logK= -1.130000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LiCl (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 42.3920 g 2 species in reaction 1.000 Cl- 1.000 Li+ .1600 .1600 .1600 .1600 .1600 .1600 .1600 .1600 * logK= 0.160000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LiEDTA--- formula= Li(C10H12N2O8)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 295.1524 g 2 species in reaction 1.000 Li+ 1.000 EDTA---- -3.7936 -3.7969 -3.8000 -3.8034 -3.8064 -3.8092 -3.8117 -3.8141 * logK= -3.800000 deltaH= -0.400000 kJ LiF (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 25.9374 g 2 species in reaction 1.000 Li+ 1.000 F- -.2459 -.2793 -.3100 -.3436 -.3741 -.4019 -.4274 -.4508 * logK= -0.310000 deltaH= -4.000000 kJ LiH-Tartrate (aq) formula= LiH(C4H4O6) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 156.0189 g 3 species in reaction 1.000 Tartrate-- 1.000 Li+ 1.000 H+ -4.9900 -4.9900 -4.9900 -4.9900 -4.9900 -4.9900 -4.9900 -4.9900 * logK= -4.990000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LiH2BO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 67.7630 g 3 species in reaction 1.000 Li+ 1.000 H3BO3 -1.000 H+ 8.9000 8.9000 8.9000 8.9000 8.9000 8.9000 8.9000 8.9000 * logK= 8.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LiHPO4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 102.9183 g 3 species in reaction 1.000 Li+ 1.000 H+ 1.000 PO4--- -13.5300 -13.5300 -13.5300 -13.5300 -13.5300 -13.5300 -13.5300 -13.5300 * logK= -13.530000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LiNH3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 23.9694 g 3 species in reaction 1.000 Li+ -1.000 H+ 1.000 NH4+ 10.7609 10.3325 9.9400 9.5104 9.1200 8.7637 8.4373 8.1372 * logK= 9.940000 deltaH= -51.200000 kJ LiNTA-- formula= Li[N(CH2COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 195.0555 g 2 species in reaction 1.000 NTA--- 1.000 Li+ -2.9617 -3.0287 -3.0900 -3.1571 -3.2181 -3.2738 -3.3248 -3.3717 * logK= -3.090000 deltaH= -8.000000 kJ LiOH (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 23.9463 g 3 species in reaction 1.000 Li+ -1.000 H+ 1.000 H2O 14.5319 14.0648 13.6370 13.1687 12.7432 12.3548 11.9990 11.6719 * logK= 13.637000 deltaH= -55.810000 kJ LiSO4- charge= -1 ion size= 5.0 A b= 0.0000 mole wt.= 103.0006 g 2 species in reaction 1.000 Li+ 1.000 SO4-- -.6400 -.6400 -.6400 -.6400 -.6400 -.6400 -.6400 -.6400 * logK= -0.640000 deltaH= 0.000000 kJ Lu(CO3)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 294.9854 g 2 species in reaction 1.000 Lu+++ 2.000 CO3-- -13.9300 -13.9300 -13.9300 -13.9300 -13.9300 -13.9300 -13.9300 -13.9300 * logK= -13.930000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Lu(NTA)2--- formula= Lu[N(CH2COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 551.2000 g 2 species in reaction 2.000 NTA--- 1.000 Lu+++ -23.6181 -23.5930 -23.5700 -23.5448 -23.5220 -23.5011 -23.4820 -23.4644 * logK= -23.570000 deltaH= 3.000000 kJ Lu(SO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 367.0902 g 2 species in reaction 1.000 Lu+++ 2.000 SO4-- -4.7992 -5.0083 -5.2000 -5.4098 -5.6004 -5.7743 -5.9337 -6.0803 * logK= -5.200000 deltaH= -25.000000 kJ Lu-(Acetate)2+ formula= Lu(CH3COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 293.0560 g 2 species in reaction 1.000 Lu+++ 2.000 Acetate- -4.2300 -4.2300 -4.2300 -4.2300 -4.2300 -4.2300 -4.2300 -4.2300 * logK= -4.230000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Lu-(Acetate)3 (aq) formula= Lu(CH3COO)3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 352.1005 g 2 species in reaction 1.000 Lu+++ 3.000 Acetate- -5.3000 -5.3000 -5.3000 -5.3000 -5.3000 -5.3000 -5.3000 -5.3000 * logK= -5.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Lu-(Benzoate)2+ formula= Lu(C6H5COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 417.1976 g 2 species in reaction 1.000 Lu+++ 2.000 Benzoate- -4.8500 -4.8500 -4.8500 -4.8500 -4.8500 -4.8500 -4.8500 -4.8500 * logK= -4.850000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Lu-(Formate)2+ formula= Lu[HCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 265.0024 g 2 species in reaction 1.000 Lu+++ 2.000 Formate- -3.1800 -3.1800 -3.1800 -3.1800 -3.1800 -3.1800 -3.1800 -3.1800 * logK= -3.180000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Lu-(iButyrate)2+ formula= Lu[(CH3)2CHCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 349.1632 g 2 species in reaction 2.000 iButyrate- 1.000 Lu+++ -3.0667 -3.3764 -3.6600 -3.9705 -4.2526 -4.5100 -4.7459 -4.9628 * logK= -3.660000 deltaH= -37.000000 kJ Lu-(Lactate)2+ formula= Lu[CH3CH(OH)COO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 353.1084 g 2 species in reaction 1.000 Lu+++ 2.000 Lactate- -6.9600 -6.9600 -6.9600 -6.9600 -6.9600 -6.9600 -6.9600 -6.9600 * logK= -6.960000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Lu-(Lactate)3 (aq) formula= Lu[CH3CH(OH)COO]3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 442.1791 g 2 species in reaction 1.000 Lu+++ 3.000 Lactate- -9.0800 -9.0800 -9.0800 -9.0800 -9.0800 -9.0800 -9.0800 -9.0800 * logK= -9.080000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Lu-(Malate)2- formula= Lu(C4H4O5)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 439.1122 g 2 species in reaction 1.000 Lu+++ 2.000 Malate-- -10.3900 -10.3900 -10.3900 -10.3900 -10.3900 -10.3900 -10.3900 -10.3900 * logK= -10.390000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Lu-(Malonate)2- formula= Lu[CH2(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 379.0598 g 2 species in reaction 2.000 Malonate-- 1.000 Lu+++ -8.4492 -8.6583 -8.8500 -9.0598 -9.2504 -9.4243 -9.5837 -9.7303 * logK= -8.850000 deltaH= -25.000000 kJ Lu-(Malonate)3--- formula= Lu[CH2(COO)2]3--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 481.1062 g 2 species in reaction 3.000 Malonate-- 1.000 Lu+++ -8.5488 -8.8417 -9.1100 -9.4037 -9.6706 -9.9141 -10.1372 -10.3424 * logK= -9.110000 deltaH= -35.000000 kJ Lu-(Oxalate)2- formula= Lu[(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 351.0062 g 2 species in reaction 1.000 Lu+++ 2.000 Oxalate-- -11.1700 -11.1700 -11.1700 -11.1700 -11.1700 -11.1700 -11.1700 -11.1700 * logK= -11.170000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Lu-(Propionate)2+ formula= Lu(CH3CH2COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 321.1096 g 2 species in reaction 1.000 Lu+++ 2.000 Propionate- -4.1931 -4.4107 -4.6100 -4.8282 -5.0264 -5.2073 -5.3731 -5.5255 * logK= -4.610000 deltaH= -26.000000 kJ Lu-Acetate++ formula= Lu(CH3COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 234.0115 g 2 species in reaction 1.000 Lu+++ 1.000 Acetate- -2.4900 -2.4900 -2.4900 -2.4900 -2.4900 -2.4900 -2.4900 -2.4900 * logK= -2.490000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Lu-Benzoate++ formula= Lu(C6H5COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 296.0823 g 2 species in reaction 1.000 Lu+++ 1.000 Benzoate- -2.3936 -2.4857 -2.5700 -2.6623 -2.7462 -2.8227 -2.8928 -2.9573 * logK= -2.570000 deltaH= -11.000000 kJ Lu-Citrate (aq) formula= Lu[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 364.0683 g 2 species in reaction 1.000 Lu+++ 1.000 Citrate--- -9.6700 -9.6700 -9.6700 -9.6700 -9.6700 -9.6700 -9.6700 -9.6700 * logK= -9.670000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Lu-DTPA-- formula= Lu(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 563.2773 g 2 species in reaction 1.000 Lu+++ 1.000 DTPA----- -26.0167 -25.8410 -25.6800 -25.5038 -25.3437 -25.1976 -25.0637 -24.9406 * logK= -25.680000 deltaH= 21.000000 kJ Lu-Formate++ formula= Lu[HCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 219.9847 g 2 species in reaction 1.000 Lu+++ 1.000 Formate- -1.6400 -1.6400 -1.6400 -1.6400 -1.6400 -1.6400 -1.6400 -1.6400 * logK= -1.640000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Lu-Glutarate+ formula= Lu[C3H6(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 305.0670 g 2 species in reaction 1.000 Lu+++ 1.000 Glutarate-- -4.1614 -4.3120 -4.4500 -4.6010 -4.7383 -4.8635 -4.9783 -5.0838 * logK= -4.450000 deltaH= -18.000000 kJ Lu-Glycine++ formula= Lu[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 249.0261 g 2 species in reaction 1.000 Lu+++ 1.000 Glycine- -4.5500 -4.5500 -4.5500 -4.5500 -4.5500 -4.5500 -4.5500 -4.5500 * logK= -4.550000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Lu-HEDTA (aq) formula= Lu(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 450.2047 g 2 species in reaction 1.000 Lu+++ 1.000 HEDTA--- -18.0175 -17.9405 -17.8700 -17.7928 -17.7227 -17.6586 -17.6000 -17.5461 * logK= -17.870000 deltaH= 9.200000 kJ Lu-iButyrate++ formula= Lu[(CH3)2CHCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 262.0651 g 2 species in reaction 1.000 iButyrate- 1.000 Lu+++ -2.2673 -2.4513 -2.6200 -2.8046 -2.9724 -3.1254 -3.2657 -3.3946 * logK= -2.620000 deltaH= -22.000000 kJ Lu-iPhthalate+ formula= Lu[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 339.0842 g 2 species in reaction 1.000 Lu+++ 1.000 iPhthalate-- -3.5654 -3.7243 -3.8700 -4.0294 -4.1743 -4.3065 -4.4276 -4.5390 * logK= -3.870000 deltaH= -19.000000 kJ Lu-Lactate++ formula= Lu[CH3CH(OH)COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 264.0377 g 2 species in reaction 1.000 Lu+++ 1.000 Lactate- -3.9500 -3.9500 -3.9500 -3.9500 -3.9500 -3.9500 -3.9500 -3.9500 * logK= -3.950000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Lu-Malate+ formula= Lu(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 307.0396 g 2 species in reaction 1.000 Lu+++ 1.000 Malate-- -6.3700 -6.3700 -6.3700 -6.3700 -6.3700 -6.3700 -6.3700 -6.3700 * logK= -6.370000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Lu-Malonate+ formula= Lu[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 277.0134 g 2 species in reaction 1.000 Malonate-- 1.000 Lu+++ -5.5155 -5.6327 -5.7400 -5.8575 -5.9642 -6.0616 -6.1509 -6.2330 * logK= -5.740000 deltaH= -14.000000 kJ Lu-Oxalate+ formula= Lu[(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 262.9866 g 2 species in reaction 1.000 Lu+++ 1.000 Oxalate-- -6.5100 -6.5100 -6.5100 -6.5100 -6.5100 -6.5100 -6.5100 -6.5100 * logK= -6.510000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Lu-Phthalate+ formula= Lu[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 339.0842 g 2 species in reaction 1.000 Lu+++ 1.000 Phthalate-- -4.9300 -4.9300 -4.9300 -4.9300 -4.9300 -4.9300 -4.9300 -4.9300 * logK= -4.930000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Lu-Propionate++ formula= Lu(CH3CH2COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 248.0383 g 2 species in reaction 1.000 Lu+++ 1.000 Propionate- -2.4095 -2.5350 -2.6500 -2.7759 -2.8902 -2.9946 -3.0902 -3.1782 * logK= -2.650000 deltaH= -15.000000 kJ Lu-Succinate+ formula= Lu[(CH2)2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 291.0402 g 2 species in reaction 1.000 Lu+++ 1.000 Succinate-- -4.3274 -4.4697 -4.6000 -4.7427 -4.8723 -4.9906 -5.0989 -5.1986 * logK= -4.600000 deltaH= -17.000000 kJ Lu-Tartrate+ formula= Lu(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 323.0390 g 2 species in reaction 1.000 Tartrate-- 1.000 Lu+++ -5.6100 -5.6100 -5.6100 -5.6100 -5.6100 -5.6100 -5.6100 -5.6100 * logK= -5.610000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LuCl++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 210.4200 g 2 species in reaction 1.000 Cl- 1.000 Lu+++ -.2100 -.2100 -.2100 -.2100 -.2100 -.2100 -.2100 -.2100 * logK= -0.210000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LuCO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 234.9762 g 2 species in reaction 1.000 Lu+++ 1.000 CO3-- -8.0000 -8.0000 -8.0000 -8.0000 -8.0000 -8.0000 -8.0000 -8.0000 * logK= -8.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LuEDTA- formula= Lu(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 463.1804 g 2 species in reaction 1.000 Lu+++ 1.000 EDTA---- -22.4603 -22.3767 -22.3000 -22.2161 -22.1398 -22.0703 -22.0065 -21.9479 * logK= -22.300000 deltaH= 10.000000 kJ LuEGTA- formula= Lu(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 551.2864 g 2 species in reaction 1.000 EGTA---- 1.000 Lu+++ -20.7600 -20.7600 -20.7600 -20.7600 -20.7600 -20.7600 -20.7600 -20.7600 * logK= -20.760000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LuF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 193.9654 g 2 species in reaction 1.000 Lu+++ 1.000 F- -4.4436 -4.5357 -4.6200 -4.7123 -4.7962 -4.8727 -4.9428 -5.0073 * logK= -4.620000 deltaH= -11.000000 kJ LuH-(Malonate)2 (aq) formula= LuH[CH2(COO)2]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 380.0677 g 3 species in reaction 2.000 Malonate-- 1.000 Lu+++ 1.000 H+ -11.8520 -12.0545 -12.2400 -12.4431 -12.6276 -12.7960 -12.9502 -13.0921 * logK= -12.240000 deltaH= -24.200000 kJ LuH-DTPA- formula= LuH(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 564.2852 g 3 species in reaction 1.000 Lu+++ 1.000 H+ 1.000 DTPA----- -28.2900 -28.2900 -28.2900 -28.2900 -28.2900 -28.2900 -28.2900 -28.2900 * logK= -28.290000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LuH-Malonate++ formula= LuH[CH2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 278.0213 g 3 species in reaction 1.000 Malonate-- 1.000 Lu+++ 1.000 H+ -7.3980 -7.4877 -7.5700 -7.6600 -7.7419 -7.8165 -7.8849 -7.9478 * logK= -7.570000 deltaH= -10.730000 kJ LuH-Sal++ formula= LuH(OC6H4COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 312.0817 g 3 species in reaction 1.000 Lu+++ 1.000 H+ 1.000 Sal-- -16.5643 -16.2907 -16.0400 -15.7656 -15.5163 -15.2888 -15.0803 -14.8886 * logK= -16.040000 deltaH= 32.700000 kJ LuH-Succinate++ formula= LuH[(CH2)2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 292.0481 g 3 species in reaction 1.000 Lu+++ 1.000 H+ 1.000 Succinate-- -8.0400 -8.0400 -8.0400 -8.0400 -8.0400 -8.0400 -8.0400 -8.0400 * logK= -8.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LuH2-(Sal)2+ formula= LuH2(OC6H4COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 449.1964 g 3 species in reaction 1.000 Lu+++ 2.000 H+ 2.000 Sal-- -33.1673 -32.6468 -32.1700 -31.6480 -31.1738 -30.7410 -30.3445 -29.9799 * logK= -32.170000 deltaH= 62.200000 kJ LuH2-(Succinate)2+ formula= LuH2[(CH2)2(COO)2]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 409.1292 g 3 species in reaction 1.000 Lu+++ 2.000 H+ 2.000 Succinate-- -15.4500 -15.4500 -15.4500 -15.4500 -15.4500 -15.4500 -15.4500 -15.4500 * logK= -15.450000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LuNO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 236.9719 g 2 species in reaction 1.000 Lu+++ 1.000 NO3- -.4100 -.4100 -.4100 -.4100 -.4100 -.4100 -.4100 -.4100 * logK= -0.410000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LuNTA (aq) formula= Lu[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 363.0835 g 2 species in reaction 1.000 NTA--- 1.000 Lu+++ -14.2560 -14.2477 -14.2400 -14.2316 -14.2240 -14.2170 -14.2107 -14.2048 * logK= -14.240000 deltaH= 1.000000 kJ LuOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 191.9743 g 3 species in reaction 1.000 Lu+++ -1.000 H+ 1.000 H2O 7.3870 7.3870 7.3870 7.3870 7.3870 7.3870 7.3870 7.3870 * logK= 7.387000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LuOH-HEDTA- formula= LuOH(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 467.2120 g 4 species in reaction 1.000 Lu+++ -1.000 H+ 1.000 H2O 1.000 HEDTA--- -9.0000 -9.0000 -9.0000 -9.0000 -9.0000 -9.0000 -9.0000 -9.0000 * logK= -9.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LuOHNTA- formula= LuOH[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 380.0908 g 4 species in reaction 1.000 NTA--- 1.000 Lu+++ -1.000 H+ 1.000 H2O -6.5450 -6.5450 -6.5450 -6.5450 -6.5450 -6.5450 -6.5450 -6.5450 * logK= -6.545000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LuSCN++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 233.0487 g 2 species in reaction 1.000 Lu+++ 1.000 SCN- -.8100 -.8100 -.8100 -.8100 -.8100 -.8100 -.8100 -.8100 * logK= -0.810000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LuSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 271.0286 g 2 species in reaction 1.000 Lu+++ 1.000 SO4-- -3.2154 -3.3743 -3.5200 -3.6794 -3.8243 -3.9565 -4.0776 -4.1890 * logK= -3.520000 deltaH= -19.000000 kJ Mg(NH3)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 58.3728 g 3 species in reaction -2.000 H+ 2.000 NH4+ 1.000 Mg++ 19.8774 19.0490 18.2900 17.4592 16.7044 16.0156 15.3845 14.8041 * logK= 18.290000 deltaH= -99.000000 kJ Mg-(Lactate)2 (aq) formula= Mg[CH3CH(OH)COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 202.4534 g 2 species in reaction 2.000 Lactate- 1.000 Mg++ -2.0100 -2.0100 -2.0100 -2.0100 -2.0100 -2.0100 -2.0100 -2.0100 * logK= -2.010000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mg-Acetate+ formula= Mg(CH3COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 83.3565 g 2 species in reaction 1.000 Acetate- 1.000 Mg++ -1.2600 -1.2600 -1.2600 -1.2600 -1.2600 -1.2600 -1.2600 -1.2600 * logK= -1.260000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mg-Benzoate+ formula= Mg(C6H5COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 145.4273 g 2 species in reaction 1.000 Benzoate- 1.000 Mg++ -.6400 -.6400 -.6400 -.6400 -.6400 -.6400 -.6400 -.6400 * logK= -0.640000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mg-Butyrate+ formula= Mg[CH3CH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 111.4101 g 2 species in reaction 1.000 Butyrate- 1.000 Mg++ -.9600 -.9600 -.9600 -.9600 -.9600 -.9600 -.9600 -.9600 * logK= -0.960000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mg-Citrate- formula= Mg[C3H5O(COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 213.4133 g 2 species in reaction 1.000 Citrate--- 1.000 Mg++ -4.7617 -4.8287 -4.8900 -4.9571 -5.0181 -5.0738 -5.1248 -5.1717 * logK= -4.890000 deltaH= -8.000000 kJ Mg-DTPA--- formula= Mg(C14H18N3O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 412.6223 g 2 species in reaction 1.000 DTPA----- 1.000 Mg++ -11.2276 -11.3280 -11.4200 -11.5207 -11.6122 -11.6957 -11.7722 -11.8425 * logK= -11.420000 deltaH= -12.000000 kJ Mg-Formate+ formula= Mg[HCOO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 69.3297 g 2 species in reaction 1.000 Formate- 1.000 Mg++ -1.4300 -1.4300 -1.4300 -1.4300 -1.4300 -1.4300 -1.4300 -1.4300 * logK= -1.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mg-Glutamate (aq) formula= Mg(C5H7NO4) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 169.4266 g 2 species in reaction 1.000 Glutamate-- 1.000 Mg++ -2.7700 -2.7700 -2.7700 -2.7700 -2.7700 -2.7700 -2.7700 -2.7700 * logK= -2.770000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mg-Glutarate (aq) formula= Mg[C3H6(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 154.4120 g 2 species in reaction 1.000 Mg++ 1.000 Glutarate-- -2.0700 -2.0700 -2.0700 -2.0700 -2.0700 -2.0700 -2.0700 -2.0700 * logK= -2.070000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mg-Glycine+ formula= Mg[NH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 98.3711 g 2 species in reaction 1.000 Glycine- 1.000 Mg++ -1.6792 -1.8883 -2.0800 -2.2898 -2.4804 -2.6543 -2.8137 -2.9603 * logK= -2.080000 deltaH= -25.000000 kJ Mg-HEDTA- formula= Mg(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 299.5497 g 2 species in reaction 1.000 Mg++ 1.000 HEDTA--- -8.0655 -8.1827 -8.2900 -8.4075 -8.5142 -8.6116 -8.7009 -8.7830 * logK= -8.290000 deltaH= -14.000000 kJ Mg-Lactate+ formula= Mg[CH3CH(OH)COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 113.3827 g 2 species in reaction 1.000 Lactate- 1.000 Mg++ -1.3700 -1.3700 -1.3700 -1.3700 -1.3700 -1.3700 -1.3700 -1.3700 * logK= -1.370000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mg-Malate (aq) formula= Mg(C4H4O5) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 156.3846 g 2 species in reaction 1.000 Malate-- 1.000 Mg++ -2.5143 -2.5486 -2.5800 -2.6144 -2.6457 -2.6742 -2.7003 -2.7244 * logK= -2.580000 deltaH= -4.100000 kJ Mg-Malonate (aq) formula= Mg[CH2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 126.3584 g 2 species in reaction 1.000 Malonate-- 1.000 Mg++ -2.6416 -2.7503 -2.8500 -2.9591 -3.0582 -3.1487 -3.2315 -3.3077 * logK= -2.850000 deltaH= -13.000000 kJ Mg-Oxalate (aq) formula= Mg[(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 112.3316 g 2 species in reaction 1.000 Oxalate-- 1.000 Mg++ -3.6200 -3.6200 -3.6200 -3.6200 -3.6200 -3.6200 -3.6200 -3.6200 * logK= -3.620000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mg-Phthalate (aq) formula= Mg[C6H4(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 188.4292 g 2 species in reaction 1.000 Phthalate-- 1.000 Mg++ -2.5200 -2.5200 -2.5200 -2.5200 -2.5200 -2.5200 -2.5200 -2.5200 * logK= -2.520000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mg-Propionate+ formula= Mg(CH3CH2COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 97.3833 g 2 species in reaction 1.000 Propionate- 1.000 Mg++ -.9016 -.9373 -.9700 -1.0058 -1.0384 -1.0680 -1.0953 -1.1203 * logK= -0.970000 deltaH= -4.267700 kJ Mg-Sal (aq) formula= Mg(OC6H4COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 160.4188 g 2 species in reaction 1.000 Sal-- 1.000 Mg++ -5.7600 -5.7600 -5.7600 -5.7600 -5.7600 -5.7600 -5.7600 -5.7600 * logK= -5.760000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mg-Succinate (aq) formula= Mg[(CH2)2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 140.3852 g 2 species in reaction 1.000 Mg++ 1.000 Succinate-- -2.1800 -2.1800 -2.1800 -2.1800 -2.1800 -2.1800 -2.1800 -2.1800 * logK= -2.180000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mg-Tartrate (aq) formula= Mg(C4H4O6) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 172.3840 g 2 species in reaction 1.000 Tartrate-- 1.000 Mg++ -2.3700 -2.3700 -2.3700 -2.3700 -2.3700 -2.3700 -2.3700 -2.3700 * logK= -2.370000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mg2CO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 108.6332 g 2 species in reaction 1.000 CO3-- 2.000 Mg++ -3.5900 -3.5900 -3.5900 -3.5900 -3.5900 -3.5900 -3.5900 -3.5900 * logK= -3.590000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mg[Ethylenediamine]++ formula= Mg[C2H4(NH2)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 84.4106 g 2 species in reaction 1.000 Mg++ 1.000 EtDiAm -.3700 -.3700 -.3700 -.3700 -.3700 -.3700 -.3700 -.3700 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -0.370000 deltaH= 0.000000 kJ MgCl+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 59.7650 g 2 species in reaction 1.000 Cl- 1.000 Mg++ -.5359 -.5693 -.6000 -.6336 -.6641 -.6919 -.7174 -.7408 * logK= -0.600000 deltaH= -4.000000 kJ MgCO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 84.3212 g 2 species in reaction 1.000 CO3-- 1.000 Mg++ -2.8129 -2.8963 -2.9797 -3.0797 -3.1798 -3.2798 -3.3799 -3.4799 * logK= -2.920000 deltaH= -10.000000 kJ * analytic data = .991 .00667 0 0 0 0 0 MgEDTA-- formula= Mg(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 312.5254 g 2 species in reaction 1.000 EDTA---- 1.000 Mg++ -10.3074 -10.4497 -10.5800 -10.7227 -10.8523 -10.9706 -11.0789 -11.1786 * logK= -10.580000 deltaH= -17.000000 kJ MgEGTA-- formula= Mg(C14H20N2O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 400.6314 g 2 species in reaction 1.000 EGTA---- 1.000 Mg++ -6.6212 -6.8137 -6.9900 -7.1830 -7.3584 -7.5184 -7.6650 -7.7999 * logK= -6.990000 deltaH= -23.000000 kJ MgF+ charge= 1 ion size= 4.5 A b= 0.0000 mole wt.= 43.3104 g 2 species in reaction 1.000 F- 1.000 Mg++ -1.6916 -1.8003 -1.9000 -2.0091 -2.1082 -2.1987 -2.2815 -2.3577 * logK= -1.900000 deltaH= -13.000000 kJ MgFe(CN)6- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 236.2652 g 3 species in reaction 1.000 Fe+++ 1.000 Mg++ 6.000 CN- -51.0399 -48.6132 -46.3900 -43.9565 -41.7454 -39.7276 -37.8789 -36.1788 * logK= -46.390000 deltaH= 290.000000 kJ MgFe(CN)6-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 236.2652 g 3 species in reaction 1.000 Fe++ 1.000 Mg++ 6.000 CN- -44.7578 -41.8625 -39.2100 -36.3065 -33.6685 -31.2611 -29.0553 -27.0269 * logK= -39.210000 deltaH= 346.000000 kJ MgH-Citrate (aq) formula= MgH[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 214.4212 g 3 species in reaction 1.000 H+ 1.000 Citrate--- 1.000 Mg++ -8.8531 -8.8807 -8.9060 -8.9337 -8.9589 -8.9818 -9.0029 -9.0222 * logK= -8.906000 deltaH= -3.300000 kJ MgH-DTPA-- formula= MgH(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 413.6302 g 3 species in reaction 1.000 H+ 1.000 DTPA----- 1.000 Mg++ -18.9100 -18.9100 -18.9100 -18.9100 -18.9100 -18.9100 -18.9100 -18.9100 * logK= -18.910000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MgH-Glutarate+ formula= MgH[C3H6(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 155.4199 g 3 species in reaction 1.000 H+ 1.000 Mg++ 1.000 Glutarate-- -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 * logK= -6.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MgH-Glycine++ formula= MgH[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 99.3790 g 3 species in reaction 1.000 Glycine- 1.000 H+ 1.000 Mg++ -10.1500 -10.1500 -10.1500 -10.1500 -10.1500 -10.1500 -10.1500 -10.1500 * logK= -10.150000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MgH-Malate+ formula= MgH(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 157.3925 g 3 species in reaction 1.000 H+ 1.000 Malate-- 1.000 Mg++ -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 * logK= -6.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MgH-Malonate+ formula= MgH[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 127.3663 g 3 species in reaction 1.000 Malonate-- 1.000 H+ 1.000 Mg++ -7.0300 -7.0300 -7.0300 -7.0300 -7.0300 -7.0300 -7.0300 -7.0300 * logK= -7.030000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MgH-Sal+ formula= MgH(OC6H4COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 161.4267 g 3 species in reaction 1.000 H+ 1.000 Sal-- 1.000 Mg++ -14.5249 -14.3032 -14.1000 -13.8776 -13.6756 -13.4912 -13.3223 -13.1669 * logK= -14.100000 deltaH= 26.500000 kJ MgH-Succinate+ formula= MgH[(CH2)2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 141.3931 g 3 species in reaction 1.000 H+ 1.000 Mg++ 1.000 Succinate-- -6.6500 -6.6500 -6.6500 -6.6500 -6.6500 -6.6500 -6.6500 -6.6500 * logK= -6.650000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MgH-Tartrate+ formula= MgH(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 173.3919 g 3 species in reaction 1.000 Tartrate-- 1.000 H+ 1.000 Mg++ -5.7500 -5.7500 -5.7500 -5.7500 -5.7500 -5.7500 -5.7500 -5.7500 * logK= -5.750000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MgH2-Citrate+ formula= MgH2[C3H5O(COO)3]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 215.4291 g 3 species in reaction 2.000 H+ 1.000 Citrate--- 1.000 Mg++ -12.2900 -12.2900 -12.2900 -12.2900 -12.2900 -12.2900 -12.2900 -12.2900 * logK= -12.290000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MgH2BO3+ charge= 1 ion size= 2.5 A b= 0.0000 mole wt.= 85.1360 g 3 species in reaction 1.000 H3BO3 -1.000 H+ 1.000 Mg++ 7.9084 7.7997 7.7000 7.5909 7.4918 7.4013 7.3185 7.2423 * logK= 7.700000 deltaH= -13.000000 kJ MgHCO3+ charge= 1 ion size= 4.0 A b= 0.0000 mole wt.= 85.3291 g 3 species in reaction 1.000 H+ 1.000 CO3-- 1.000 Mg++ -11.6396 -11.4943 -11.3952 -11.3306 -11.3190 -11.3548 -11.4334 -11.5507 * logK= -11.340000 deltaH= 9.600000 kJ * analytic data = -4.179 .012734 2902.39 0 .0000229812 0 0 MgHEDTA- formula= MgH(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 313.5333 g 3 species in reaction 1.000 H+ 1.000 EDTA---- 1.000 Mg++ -15.0100 -15.0100 -15.0100 -15.0100 -15.0100 -15.0100 -15.0100 -15.0100 * logK= -15.010000 deltaH= 0.000000 kJ MgHEGTA- formula= MgH(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 401.6393 g 3 species in reaction 1.000 EGTA---- 1.000 H+ 1.000 Mg++ -15.0100 -15.0100 -15.0100 -15.0100 -15.0100 -15.0100 -15.0100 -15.0100 * logK= -15.010000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MgHPO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 120.2913 g 3 species in reaction 1.000 H+ 1.000 PO4--- 1.000 Mg++ -15.2231 -15.1980 -15.1750 -15.1498 -15.1270 -15.1061 -15.0870 -15.0694 * logK= -15.175000 deltaH= 3.000000 kJ MgMoO4(aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 184.2496 g 2 species in reaction 1.000 MoO4-- 1.000 Mg++ -2.9370 -2.9855 -3.0300 -3.0787 -3.1229 -3.1632 -3.2002 -3.2342 * logK= -3.030000 deltaH= -5.800000 kJ MgNTA- formula= Mg[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 212.4285 g 2 species in reaction 1.000 NTA--- 1.000 Mg++ -6.5074 -6.6497 -6.7800 -6.9227 -7.0523 -7.1706 -7.2789 -7.3786 * logK= -6.780000 deltaH= -17.000000 kJ MgOH+ charge= 1 ion size= 6.5 A b= 0.0000 mole wt.= 41.3193 g 3 species in reaction -1.000 H+ 1.000 H2O 1.000 Mg++ 12.8082 12.2768 11.7845 11.2389 10.7361 10.2706 9.8376 9.4332 * logK= 11.417000 deltaH= -67.810000 kJ * analytic data = -3.53 .00513 -2917.1 0 0 0 0 MgPO4- charge= -1 ion size= 5.4 A b= 0.0000 mole wt.= 119.2834 g 2 species in reaction 1.000 PO4--- 1.000 Mg++ -4.4460 -4.5546 -4.6540 -4.7628 -4.8617 -4.9520 -5.0347 -5.1107 * logK= -4.654000 deltaH= -12.970400 kJ MgS2O3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 136.4382 g 2 species in reaction 1.000 S2O3-- 1.000 Mg++ -1.7943 -1.8077 -1.8200 -1.8334 -1.8456 -1.8568 -1.8670 -1.8763 * logK= -1.820000 deltaH= -1.600000 kJ MgSO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 104.3742 g 2 species in reaction 1.000 Mg++ 1.000 SO3-- -2.3600 -2.3600 -2.3600 -2.3600 -2.3600 -2.3600 -2.3600 -2.3600 * logK= -2.360000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MgSO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 120.3736 g 2 species in reaction 1.000 Mg++ 1.000 SO4-- -2.1670 -2.2155 -2.2600 -2.3087 -2.3529 -2.3932 -2.4302 -2.4642 * logK= -2.260000 deltaH= -5.800000 kJ MgWO4(aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 272.1596 g 2 species in reaction 1.000 WO4-- 1.000 Mg++ -2.9370 -2.9855 -3.0300 -3.0787 -3.1229 -3.1632 -3.2002 -3.2342 * logK= -3.030000 deltaH= -5.800000 kJ Mn(CN)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 106.9734 g 2 species in reaction 1.000 Mn++ 2.000 CN- -4.0700 -4.0700 -4.0700 -4.0700 -4.0700 -4.0700 -4.0700 -4.0700 * logK= -4.070000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mn(NH3)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 88.9988 g 3 species in reaction 1.000 Mn++ -2.000 H+ 2.000 NH4+ 18.7536 17.9637 17.2400 16.4478 15.7281 15.0713 14.4695 13.9161 * logK= 17.240000 deltaH= -94.400000 kJ Mn(NH3)3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 106.0292 g 3 species in reaction 1.000 Mn++ -3.000 H+ 3.000 NH4+ 28.6108 27.4309 26.3500 25.1668 24.0918 23.1107 22.2118 21.3852 * logK= 26.350000 deltaH= -141.000000 kJ Mn(NH3)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 123.0596 g 3 species in reaction 1.000 Mn++ -4.000 H+ 4.000 NH4+ 38.7544 37.1812 35.7400 34.1624 32.7290 31.4209 30.2224 29.1203 * logK= 35.740000 deltaH= -188.000000 kJ Mn(NO3)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 178.9478 g 2 species in reaction 1.000 Mn++ 2.000 NO3- -.6266 -.6127 -.6000 -.5861 -.5735 -.5619 -.5514 -.5417 * logK= -0.600000 deltaH= 1.656900 kJ Mn(NTA)2---- formula= Mn[N(CH2COO)3]2---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 431.1710 g 2 species in reaction 2.000 NTA--- 1.000 Mn++ -11.6026 -11.4603 -11.3300 -11.1873 -11.0577 -10.9394 -10.8311 -10.7314 * logK= -11.330000 deltaH= 17.000000 kJ Mn(OH)4-- charge= -2 ion size= 5.0 A b= 0.0000 mole wt.= 122.9672 g 3 species in reaction 1.000 Mn++ -4.000 H+ 4.000 H2O 48.2880 48.2880 48.2880 48.2880 48.2880 48.2880 48.2880 48.2880 * logK= 48.288000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mn-(Glutamate)2-- formula= Mn(C5H7NO4)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 345.1672 g 2 species in reaction 1.000 Mn++ 2.000 Glutamate-- -8.4800 -8.4800 -8.4800 -8.4800 -8.4800 -8.4800 -8.4800 -8.4800 * logK= -8.480000 deltaH= 0.000000 kJ Mn-(Glycine)2 (aq) formula= Mn[NH2CH2COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 203.0562 g 2 species in reaction 2.000 Glycine- 1.000 Mn++ -5.4600 -5.4600 -5.4600 -5.4600 -5.4600 -5.4600 -5.4600 -5.4600 * logK= -5.460000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mn-(Lactate)2 (aq) formula= Mn[CH3CH(OH)COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 233.0794 g 2 species in reaction 2.000 Lactate- 1.000 Mn++ -2.1700 -2.1700 -2.1700 -2.1700 -2.1700 -2.1700 -2.1700 -2.1700 * logK= -2.170000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mn-(Lactate)3- formula= Mn[CH3CH(OH)COO]3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 322.1501 g 2 species in reaction 3.000 Lactate- 1.000 Mn++ -2.2100 -2.2100 -2.2100 -2.2100 -2.2100 -2.2100 -2.2100 -2.2100 * logK= -2.210000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mn-(Oxalate)2-- formula= Mn[(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 230.9772 g 2 species in reaction 1.000 Mn++ 2.000 Oxalate-- -5.2628 -5.2561 -5.2500 -5.2433 -5.2372 -5.2316 -5.2265 -5.2218 * logK= -5.250000 deltaH= 0.800000 kJ Mn-(Sal)2-- formula= Mn(OC6H4COO)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 327.1516 g 2 species in reaction 1.000 Mn++ 2.000 Sal-- -10.2000 -10.2000 -10.2000 -10.2000 -10.2000 -10.2000 -10.2000 -10.2000 * logK= -10.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mn-Acetate+ formula= Mn(CH3COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 113.9825 g 2 species in reaction 1.000 Acetate- 1.000 Mn++ -1.4000 -1.4000 -1.4000 -1.4000 -1.4000 -1.4000 -1.4000 -1.4000 * logK= -1.400000 deltaH= 0.000000 kJ Mn-Benzoate+ formula= Mn(C6H5COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 176.0533 g 2 species in reaction 1.000 Mn++ 1.000 Benzoate- -.8376 -.9380 -1.0300 -1.1307 -1.2222 -1.3057 -1.3822 -1.4525 * logK= -1.030000 deltaH= -12.000000 kJ Mn-Citrate- formula= Mn[C3H5O(COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 244.0393 g 2 species in reaction 1.000 Mn++ 1.000 Citrate--- -5.2000 -5.2000 -5.2000 -5.2000 -5.2000 -5.2000 -5.2000 -5.2000 * logK= -5.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mn-DTPA--- formula= Mn(C14H18N3O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 443.2483 g 2 species in reaction 1.000 Mn++ 1.000 DTPA----- -17.8471 -17.5877 -17.3500 -17.0899 -16.8535 -16.6378 -16.4402 -16.2585 * logK= -17.350000 deltaH= 31.000000 kJ Mn-Glutamate (aq) formula= Mn(C5H7NO4) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 200.0526 g 2 species in reaction 1.000 Mn++ 1.000 Glutamate-- -4.9500 -4.9500 -4.9500 -4.9500 -4.9500 -4.9500 -4.9500 -4.9500 * logK= -4.950000 deltaH= 0.000000 kJ Mn-Glutarate (aq) formula= Mn[C3H6(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 185.0380 g 2 species in reaction 1.000 Mn++ 1.000 Glutarate-- -2.0700 -2.0700 -2.0700 -2.0700 -2.0700 -2.0700 -2.0700 -2.0700 * logK= -2.070000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mn-Glycine+ formula= Mn[NH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 128.9971 g 2 species in reaction 1.000 Glycine- 1.000 Mn++ -3.2060 -3.1977 -3.1900 -3.1816 -3.1740 -3.1670 -3.1607 -3.1548 * logK= -3.190000 deltaH= 1.000000 kJ Mn-HEDTA (aq) formula= Mn(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 330.1757 g 2 species in reaction 1.000 Mn+++ 1.000 HEDTA--- -24.7400 -24.7400 -24.7400 -24.7400 -24.7400 -24.7400 -24.7400 -24.7400 * logK= -24.740000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mn-HEDTA- formula= Mn(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 330.1757 g 2 species in reaction 1.000 Mn++ 1.000 HEDTA--- -12.7267 -12.5510 -12.3900 -12.2138 -12.0537 -11.9076 -11.7737 -11.6506 * logK= -12.390000 deltaH= 21.000000 kJ Mn-Lactate+ formula= Mn[CH3CH(OH)COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 144.0087 g 2 species in reaction 1.000 Lactate- 1.000 Mn++ -1.4300 -1.4300 -1.4300 -1.4300 -1.4300 -1.4300 -1.4300 -1.4300 * logK= -1.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mn-Malate (aq) formula= Mn(C4H4O5) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 187.0106 g 2 species in reaction 1.000 Mn++ 1.000 Malate-- -3.1100 -3.1100 -3.1100 -3.1100 -3.1100 -3.1100 -3.1100 -3.1100 * logK= -3.110000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mn-Malonate (aq) formula= Mn[CH2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 156.9844 g 2 species in reaction 1.000 Malonate-- 1.000 Mn++ -3.0395 -3.1650 -3.2800 -3.4059 -3.5202 -3.6246 -3.7202 -3.8082 * logK= -3.280000 deltaH= -15.000000 kJ Mn-Oxalate (aq) formula= Mn[(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 142.9576 g 2 species in reaction 1.000 Mn++ 1.000 Oxalate-- -3.8570 -3.9055 -3.9500 -3.9987 -4.0429 -4.0832 -4.1202 -4.1542 * logK= -3.950000 deltaH= -5.800000 kJ Mn-Phthalate (aq) formula= Mn[C6H4(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 219.0552 g 2 species in reaction 1.000 Mn++ 1.000 Phthalate-- -2.5797 -2.6633 -2.7400 -2.8239 -2.9002 -2.9697 -3.0335 -3.0921 * logK= -2.740000 deltaH= -10.000000 kJ Mn-Sal (aq) formula= Mn(OC6H4COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 191.0448 g 2 species in reaction 1.000 Mn++ 1.000 Sal-- -6.6300 -6.6300 -6.6300 -6.6300 -6.6300 -6.6300 -6.6300 -6.6300 * logK= -6.630000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mn-Succinate (aq) formula= Mn[(CH2)2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 171.0112 g 2 species in reaction 1.000 Mn++ 1.000 Succinate-- -2.0976 -2.1980 -2.2900 -2.3907 -2.4822 -2.5657 -2.6422 -2.7125 * logK= -2.290000 deltaH= -12.000000 kJ Mn-Tartrate (aq) formula= Mn(C4H4O6) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 203.0100 g 2 species in reaction 1.000 Tartrate-- 1.000 Mn++ -3.3800 -3.3800 -3.3800 -3.3800 -3.3800 -3.3800 -3.3800 -3.3800 * logK= -3.380000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mn2(OH)3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 160.8979 g 3 species in reaction 2.000 Mn++ -3.000 H+ 3.000 H2O 23.8910 23.8910 23.8910 23.8910 23.8910 23.8910 23.8910 23.8910 * logK= 23.891000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mn2-DTPA- formula= Mn2(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 498.1863 g 2 species in reaction 2.000 Mn++ 1.000 DTPA----- -20.7300 -20.7300 -20.7300 -20.7300 -20.7300 -20.7300 -20.7300 -20.7300 * logK= -20.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mn2OH+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 126.8833 g 3 species in reaction 2.000 Mn++ -1.000 H+ 1.000 H2O 10.5970 10.5970 10.5970 10.5970 10.5970 10.5970 10.5970 10.5970 * logK= 10.597000 deltaH= 0.000000 kJ Mn[Ethylenediamine]++ formula= Mn[C2H4(NH2)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 115.0366 g 2 species in reaction 1.000 Mn++ 1.000 EtDiAm -2.9278 -2.8298 -2.7400 -2.6417 -2.5524 -2.4709 -2.3962 -2.3275 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.740000 deltaH= 11.715200 kJ Mn[Ethylenediamine]2++ formula= Mn[C2H4(NH2)2]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 175.1352 g 2 species in reaction 1.000 Mn++ 2.000 EtDiAm -5.2025 -4.9925 -4.8000 -4.5893 -4.3979 -4.2233 -4.0632 -3.9161 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -4.800000 deltaH= 25.104000 kJ MnBr+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 134.8420 g 2 species in reaction 1.000 Br- 1.000 Mn++ -.1400 -.1400 -.1400 -.1400 -.1400 -.1400 -.1400 -.1400 * logK= -0.140000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MnCl+ charge= 1 ion size= 5.0 A b= 0.0000 mole wt.= 90.3910 g 2 species in reaction 1.000 Cl- 1.000 Mn++ 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 * logK= 0.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MnCl2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 125.8440 g 2 species in reaction 2.000 Cl- 1.000 Mn++ -.2500 -.2500 -.2500 -.2500 -.2500 -.2500 -.2500 -.2500 * logK= -0.250000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MnCl3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 161.2970 g 2 species in reaction 3.000 Cl- 1.000 Mn++ .3100 .3100 .3100 .3100 .3100 .3100 .3100 .3100 * logK= 0.310000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MnCN+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 80.9557 g 2 species in reaction 1.000 Mn++ 1.000 CN- -2.3100 -2.3100 -2.3100 -2.3100 -2.3100 -2.3100 -2.3100 -2.3100 * logK= -2.310000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MnCO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 114.9472 g 2 species in reaction 1.000 Mn++ 1.000 CO3-- -4.7000 -4.7000 -4.7000 -4.7000 -4.7000 -4.7000 -4.7000 -4.7000 * logK= -4.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MnEDTA-- formula= Mn(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 343.1514 g 2 species in reaction 1.000 Mn++ 1.000 EDTA---- -15.9046 -15.7457 -15.6000 -15.4406 -15.2957 -15.1635 -15.0424 -14.9310 * logK= -15.600000 deltaH= 19.000000 kJ MnEGTA-- formula= Mn(C14H20N2O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 431.2574 g 2 species in reaction 1.000 EGTA---- 1.000 Mn++ -14.4872 -14.1860 -13.9100 -13.6079 -13.3334 -13.0829 -12.8534 -12.6424 * logK= -13.910000 deltaH= 36.000000 kJ MnF+ charge= 1 ion size= 5.0 A b= 0.0000 mole wt.= 73.9364 g 2 species in reaction 1.000 Mn++ 1.000 F- -1.3236 -1.4157 -1.5000 -1.5923 -1.6762 -1.7527 -1.8228 -1.8873 * logK= -1.500000 deltaH= -11.000000 kJ MnH-Citrate (aq) formula= MnH[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 245.0472 g 3 species in reaction 1.000 Mn++ 1.000 H+ 1.000 Citrate--- -9.5700 -9.5700 -9.5700 -9.5700 -9.5700 -9.5700 -9.5700 -9.5700 * logK= -9.570000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MnH-DTPA-- formula= MnH(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 444.2562 g 3 species in reaction 1.000 Mn++ 1.000 H+ 1.000 DTPA----- -22.4400 -22.4400 -22.4400 -22.4400 -22.4400 -22.4400 -22.4400 -22.4400 * logK= -22.440000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MnH-Succinate+ formula= MnH[(CH2)2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 172.0191 g 3 species in reaction 1.000 Mn++ 1.000 H+ 1.000 Succinate-- -6.8400 -6.8400 -6.8400 -6.8400 -6.8400 -6.8400 -6.8400 -6.8400 * logK= -6.840000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MnH-Tartrate+ formula= MnH(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 204.0179 g 3 species in reaction 1.000 Tartrate-- 1.000 Mn++ 1.000 H+ -6.0100 -6.0100 -6.0100 -6.0100 -6.0100 -6.0100 -6.0100 -6.0100 * logK= -6.010000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MnHCO3+ charge= 1 ion size= 5.0 A b= 0.0000 mole wt.= 115.9551 g 3 species in reaction 1.000 Mn++ 1.000 H+ 1.000 CO3-- -11.7990 -11.7103 -11.6290 -11.5400 -11.4592 -11.3855 -11.3179 -11.2558 * logK= -11.629000 deltaH= 10.600000 kJ MnHEDTA- formula= MnH(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 344.1593 g 3 species in reaction 1.000 Mn++ 1.000 H+ 1.000 EDTA---- -19.5148 -19.3140 -19.1300 -18.9286 -18.7456 -18.5786 -18.4256 -18.2849 * logK= -19.130000 deltaH= 24.000000 kJ MnHEGTA- formula= MnH(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 432.2653 g 3 species in reaction 1.000 EGTA---- 1.000 Mn++ 1.000 H+ -18.2800 -18.2800 -18.2800 -18.2800 -18.2800 -18.2800 -18.2800 -18.2800 * logK= -18.280000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MnHPO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 150.9173 g 3 species in reaction 1.000 Mn++ 1.000 H+ 1.000 PO4--- -15.8000 -15.8000 -15.8000 -15.8000 -15.8000 -15.8000 -15.8000 -15.8000 * logK= -15.800000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MnHS+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 88.0099 g 2 species in reaction 1.000 Mn++ 1.000 HS- -5.1400 -5.1400 -5.1400 -5.1400 -5.1400 -5.1400 -5.1400 -5.1400 * logK= -5.140000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MnNH3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 71.9684 g 3 species in reaction 1.000 Mn++ -1.000 H+ 1.000 NH4+ 9.1536 8.7603 8.4000 8.0056 7.6473 7.3202 7.0206 6.7451 * logK= 8.400000 deltaH= -47.000000 kJ MnNO2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 100.9435 g 2 species in reaction 1.000 Mn++ 1.000 NO2- -.8600 -.8600 -.8600 -.8600 -.8600 -.8600 -.8600 -.8600 * logK= -0.860000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MnNO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 116.9429 g 2 species in reaction 1.000 Mn++ 1.000 NO3- -.2000 -.2000 -.2000 -.2000 -.2000 -.2000 -.2000 -.2000 * logK= -0.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MnNTA- formula= Mn[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 243.0545 g 2 species in reaction 1.000 NTA--- 1.000 Mn++ -8.5634 -8.6086 -8.6500 -8.6953 -8.7365 -8.7741 -8.8085 -8.8401 * logK= -8.650000 deltaH= -5.400000 kJ MnO4- charge= -1 ion size= 3.0 A b= 0.0000 mole wt.= 118.9356 g 4 species in reaction 1.000 Mn++ -3.000 H+ 1.250 O2(aq) 1.500 H2O 22.0744 21.0933 20.1945 19.2106 18.3167 17.5009 16.7535 16.0661 * logK= 20.194500 deltaH= -117.246435 kJ MnO4-- charge= -2 ion size= 5.0 A b= 0.0000 mole wt.= 118.9356 g 4 species in reaction 1.000 Mn++ -4.000 H+ 1.000 O2(aq) 2.000 H2O 34.6945 33.4667 32.3418 31.1105 29.9918 28.9708 28.0354 27.1752 * logK= 32.341800 deltaH= -146.731128 kJ MnOH+ charge= 1 ion size= 5.0 A b= 0.0000 mole wt.= 71.9453 g 3 species in reaction 1.000 Mn++ -1.000 H+ 1.000 H2O 11.5560 11.0555 10.5970 10.0951 9.6391 9.2229 8.8417 8.4910 * logK= 10.597000 deltaH= -59.810000 kJ MnS2O3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 167.0642 g 2 species in reaction 1.000 S2O3-- 1.000 Mn++ -1.9821 -1.9653 -1.9500 -1.9332 -1.9180 -1.9041 -1.8913 -1.8796 * logK= -1.950000 deltaH= 2.000000 kJ MnSCN+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 113.0197 g 2 species in reaction 1.000 Mn++ 1.000 SCN- -1.2781 -1.2530 -1.2300 -1.2048 -1.1820 -1.1611 -1.1420 -1.1244 * logK= -1.230000 deltaH= 3.000000 kJ MnSe (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 133.8980 g 4 species in reaction 1.000 Mn++ -1.000 H+ 1.000 HSe- 0.000 H2O 5.3850 5.3850 5.3850 5.3850 5.3850 5.3850 5.3850 5.3850 * logK= 5.385000 deltaH= 0.000000 kJ MnSeO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 197.8956 g 2 species in reaction 1.000 Mn++ 1.000 SeO4-- -2.2055 -2.3227 -2.4300 -2.5475 -2.6542 -2.7516 -2.8409 -2.9230 * logK= -2.430000 deltaH= -14.000000 kJ MnSO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 135.0002 g 2 species in reaction 1.000 Mn++ 1.000 SO3-- -3.0000 -3.0000 -3.0000 -3.0000 -3.0000 -3.0000 -3.0000 -3.0000 * logK= -3.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MnSO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 150.9996 g 2 species in reaction 1.000 Mn++ 1.000 SO4-- -2.1105 -2.1833 -2.2500 -2.3230 -2.3893 -2.4499 -2.5053 -2.5563 * logK= -2.250000 deltaH= -8.700000 kJ Mo7O24------ charge= -6 ion size= 0.0 A b= 0.0000 mole wt.= 1055.5656 g 3 species in reaction 8.000 H+ 7.000 MoO4-- -4.000 H2O -56.9968 -54.8379 -52.8600 -50.6950 -48.7279 -46.9328 -45.2880 -43.7755 * logK= -52.860000 deltaH= 258.000000 kJ Mo8O26---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 1183.5044 g 3 species in reaction 12.000 H+ 8.000 MoO4-- -6.000 H2O -78.9497 -76.5649 -74.3800 -71.9884 -69.8155 -67.8325 -66.0156 -64.3448 * logK= -74.380000 deltaH= 285.000000 kJ MoO3(H2O)3(aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 161.9534 g 2 species in reaction 2.000 H+ 1.000 MoO4-- -8.6408 -8.4317 -8.2400 -8.0302 -7.8396 -7.6657 -7.5063 -7.3597 * logK= -8.240000 deltaH= 25.000000 kJ MoO3-Oxalate-- formula= MoO3[(COO)2]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 231.9578 g 4 species in reaction 2.000 H+ 1.000 MoO4-- 1.000 Oxalate-- -1.000 H2O -15.4124 -14.9154 -14.4600 -13.9615 -13.5087 -13.0954 -12.7167 -12.3685 * logK= -14.460000 deltaH= 59.400000 kJ MoO3H2NTA- formula= MoO3H2[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 334.0705 g 4 species in reaction 1.000 NTA--- 4.000 H+ 1.000 MoO4-- -1.000 H2O -26.4884 -25.8943 -25.3500 -24.7542 -24.2129 -23.7189 -23.2662 -22.8500 * logK= -25.350000 deltaH= 71.000000 kJ MoO3HNTA-- formula= MoO3H[N(CH2COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 333.0626 g 4 species in reaction 1.000 NTA--- 3.000 H+ 1.000 MoO4-- -1.000 H2O -24.5384 -23.9443 -23.4000 -22.8042 -22.2629 -21.7689 -21.3162 -20.9000 * logK= -23.400000 deltaH= 71.000000 kJ MoO3NTA--- formula= MoO3[N(CH2COO)3]--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 332.0547 g 4 species in reaction 1.000 NTA--- 2.000 H+ 1.000 MoO4-- -1.000 H2O -20.6563 -20.0790 -19.5500 -18.9710 -18.4449 -17.9648 -17.5249 -17.1204 * logK= -19.550000 deltaH= 69.000000 kJ MoO4H-Malate--- formula= MoO4H(C4H4O5)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 293.0181 g 3 species in reaction 1.000 H+ 1.000 Malate-- 1.000 MoO4-- -8.3839 -7.9070 -7.4700 -6.9917 -6.5571 -6.1605 -5.7971 -5.4630 * logK= -7.470000 deltaH= 57.000000 kJ MoO4H2-Malate-- formula= MoO4H2(C4H4O5)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 294.0260 g 3 species in reaction 2.000 H+ 1.000 Malate-- 1.000 MoO4-- -14.7999 -14.3355 -13.9100 -13.4443 -13.0211 -12.6350 -12.2811 -11.9558 * logK= -13.910000 deltaH= 55.500000 kJ MoO4H3-(Malate)2--- formula= MoO4H3(C4H4O5)2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 427.1065 g 3 species in reaction 3.000 H+ 2.000 Malate-- 1.000 MoO4-- -20.7400 -20.7400 -20.7400 -20.7400 -20.7400 -20.7400 -20.7400 -20.7400 * logK= -20.740000 deltaH= 0.000000 kJ MoO4H3-Malate- formula= MoO4H3(C4H4O5)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 295.0339 g 3 species in reaction 3.000 H+ 1.000 Malate-- 1.000 MoO4-- -16.8900 -16.8900 -16.8900 -16.8900 -16.8900 -16.8900 -16.8900 -16.8900 * logK= -16.890000 deltaH= 0.000000 kJ MoO4H4-(Malate)2-- formula= MoO4H4(C4H4O5)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 428.1144 g 3 species in reaction 4.000 H+ 2.000 Malate-- 1.000 MoO4-- -26.7325 -26.0162 -25.3600 -24.6417 -23.9890 -23.3934 -22.8477 -22.3459 * logK= -25.360000 deltaH= 85.600000 kJ Na-Acetate (aq) formula= Na(CH3COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 82.0343 g 2 species in reaction 1.000 Acetate- 1.000 Na+ .2483 .1813 .1200 .0529 -.0081 -.0638 -.1148 -.1617 * logK= 0.120000 deltaH= -8.000000 kJ Na-Citrate-- formula= Na[C3H5O(COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 212.0911 g 2 species in reaction 1.000 Citrate--- 1.000 Na+ -1.3740 -1.3823 -1.3900 -1.3984 -1.4060 -1.4130 -1.4193 -1.4252 * logK= -1.390000 deltaH= -1.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Na-Glycine (aq) formula= Na[NH2CH2COO] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 97.0489 g 2 species in reaction 1.000 Glycine- 1.000 Na+ .6000 .6000 .6000 .6000 .6000 .6000 .6000 .6000 * logK= 0.600000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Na-Malate- formula= Na(C4H4O5)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 155.0624 g 2 species in reaction 1.000 Malate-- 1.000 Na+ -.7064 -.7031 -.7000 -.6966 -.6936 -.6908 -.6883 -.6859 * logK= -0.700000 deltaH= 0.400000 kJ Na-Malonate- formula= Na[CH2(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 125.0362 g 2 species in reaction 1.000 Malonate-- 1.000 Na+ -.7359 -.7693 -.8000 -.8336 -.8641 -.8919 -.9174 -.9408 * logK= -0.800000 deltaH= -4.000000 kJ Na-Oxalate- formula= Na[(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 111.0094 g 2 species in reaction 1.000 Na+ 1.000 Oxalate-- -.8359 -.8693 -.9000 -.9336 -.9641 -.9919 -1.0174 -1.0408 * logK= -0.900000 deltaH= -4.000000 kJ Na-Phthalate- formula= Na[C6H4(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 187.1070 g 2 species in reaction 1.000 Phthalate-- 1.000 Na+ -.7359 -.7693 -.8000 -.8336 -.8641 -.8919 -.9174 -.9408 * logK= -0.800000 deltaH= -4.000000 kJ Na-Succinate- formula= Na[(CH2)2(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 139.0630 g 2 species in reaction 1.000 Na+ 1.000 Succinate-- -.7859 -.8193 -.8500 -.8836 -.9141 -.9419 -.9674 -.9908 * logK= -0.850000 deltaH= -4.000000 kJ Na-Tartrate- formula= Na(C4H4O6)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 171.0618 g 2 species in reaction 1.000 Tartrate-- 1.000 Na+ -.9128 -.9061 -.9000 -.8933 -.8872 -.8816 -.8765 -.8718 * logK= -0.900000 deltaH= 0.800000 kJ Na2HPO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 141.9589 g 3 species in reaction 1.000 H+ 1.000 PO4--- 2.000 Na+ -13.3200 -13.3200 -13.3200 -13.3200 -13.3200 -13.3200 -13.3200 -13.3200 * logK= -13.320000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Na2PO4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 140.9510 g 2 species in reaction 1.000 PO4--- 2.000 Na+ -2.5900 -2.5900 -2.5900 -2.5900 -2.5900 -2.5900 -2.5900 -2.5900 * logK= -2.590000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Na2V10O28---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 1003.3778 g 4 species in reaction 14.000 H+ 2.000 Na+ -12.000 H2O 10.000 HVO4-- -139.3300 -139.3300 -139.3300 -139.3300 -139.3300 -139.3300 -139.3300 -139.3300 * logK= -139.330000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NaCl (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 58.4428 g 2 species in reaction 1.000 Cl- 1.000 Na+ .1717 .2387 .3000 .3671 .4281 .4838 .5348 .5817 * logK= 0.300000 deltaH= 8.000000 kJ NaClO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 122.4404 g 2 species in reaction 1.000 ClO4- 1.000 Na+ .7000 .7000 .7000 .7000 .7000 .7000 .7000 .7000 * logK= 0.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NaCO3- charge= -1 ion size= 5.4 A b= 0.0000 mole wt.= 82.9990 g 2 species in reaction 1.000 Na+ 1.000 CO3-- -1.5963 -1.4260 -1.2700 -1.0992 -.9441 -.8025 -.6728 -.5535 * logK= -1.270000 deltaH= 20.350000 kJ NaCrO4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 138.9834 g 2 species in reaction 1.000 CrO4-- 1.000 Na+ -.6963 -.6963 -.6963 -.6963 -.6963 -.6963 -.6963 -.6963 * logK= -0.696300 deltaH= 0.000000 kJ NaEDTA--- formula= Na(C10H12N2O8)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 311.2032 g 2 species in reaction 1.000 Na+ 1.000 EDTA---- -2.8030 -2.7545 -2.7100 -2.6613 -2.6171 -2.5768 -2.5398 -2.5058 * logK= -2.710000 deltaH= 5.800000 kJ NaF (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 41.9882 g 2 species in reaction 1.000 Na+ 1.000 F- .1724 .0720 -.0200 -.1207 -.2122 -.2957 -.3722 -.4425 * logK= -0.020000 deltaH= -12.000000 kJ NaFe(CN)6--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 234.9430 g 3 species in reaction 1.000 Fe++ 1.000 Na+ 6.000 CN- -43.2760 -40.3138 -37.6000 -34.6294 -31.9304 -29.4673 -27.2106 -25.1352 * logK= -37.600000 deltaH= 354.000000 kJ NaH-Sal (aq) formula= NaH(OC6H4COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 160.1045 g 3 species in reaction 1.000 H+ 1.000 Sal-- 1.000 Na+ -13.4100 -13.4100 -13.4100 -13.4100 -13.4100 -13.4100 -13.4100 -13.4100 * logK= -13.410000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NaH-Tartrate (aq) formula= NaH(C4H4O6) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 172.0697 g 3 species in reaction 1.000 Tartrate-- 1.000 H+ 1.000 Na+ -4.6241 -4.6011 -4.5800 -4.5569 -4.5360 -4.5168 -4.4993 -4.4832 * logK= -4.580000 deltaH= 2.750000 kJ NaH2BO3 (aq) charge= 0 ion size= 2.5 A b= 0.0000 mole wt.= 83.8138 g 3 species in reaction 1.000 H3BO3 -1.000 H+ 1.000 Na+ 9.0400 9.0400 9.0400 9.0400 9.0400 9.0400 9.0400 9.0400 * logK= 9.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NaH2PO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 119.9770 g 3 species in reaction 2.000 H+ 1.000 PO4--- 1.000 Na+ -19.8730 -19.8730 -19.8730 -19.8730 -19.8730 -19.8730 -19.8730 -19.8730 * logK= -19.873000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NaHCO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 84.0069 g 3 species in reaction 1.000 H+ 1.000 Na+ 1.000 CO3-- -10.4832 -10.2462 -10.0290 -9.7913 -9.5753 -9.3782 -9.1975 -9.0315 * logK= -10.029000 deltaH= 28.330100 kJ NaHPO4- charge= -1 ion size= 5.4 A b= 0.0000 mole wt.= 118.9691 g 3 species in reaction 1.000 H+ 1.000 PO4--- 1.000 Na+ -13.4450 -13.4450 -13.4450 -13.4450 -13.4450 -13.4450 -13.4450 -13.4450 * logK= -13.445000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NaHV10O28---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 981.3959 g 4 species in reaction 15.000 H+ 1.000 Na+ -12.000 H2O 10.000 HVO4-- -143.6800 -143.6800 -143.6800 -143.6800 -143.6800 -143.6800 -143.6800 -143.6800 * logK= -143.680000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NaNO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 84.9947 g 2 species in reaction 1.000 NO3- 1.000 Na+ .5500 .5500 .5500 .5500 .5500 .5500 .5500 .5500 * logK= 0.550000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NaNTA-- formula= Na[N(CH2COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 211.1063 g 2 species in reaction 1.000 NTA--- 1.000 Na+ -1.7117 -1.7787 -1.8400 -1.9071 -1.9681 -2.0238 -2.0748 -2.1217 * logK= -1.840000 deltaH= -8.000000 kJ NaOH (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 39.9971 g 3 species in reaction -1.000 H+ 1.000 Na+ 1.000 H2O 14.8560 14.3555 13.8970 13.3951 12.9391 12.5229 12.1417 11.7910 * logK= 13.897000 deltaH= -59.810000 kJ NaPO4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 117.9612 g 2 species in reaction 1.000 PO4--- 1.000 Na+ -1.3017 -1.3687 -1.4300 -1.4971 -1.5581 -1.6138 -1.6648 -1.7117 * logK= -1.430000 deltaH= -8.000000 kJ NaS2O3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 135.1160 g 2 species in reaction 1.000 S2O3-- 1.000 Na+ -.5569 -.5950 -.6300 -.6683 -.7030 -.7348 -.7638 -.7906 * logK= -0.630000 deltaH= -4.560000 kJ NaSO3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 103.0520 g 2 species in reaction 1.000 Na+ 1.000 SO3-- -.8300 -.8300 -.8300 -.8300 -.8300 -.8300 -.8300 -.8300 * logK= -0.830000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NaSO4- charge= -1 ion size= 5.4 A b= 0.0000 mole wt.= 119.0514 g 2 species in reaction 1.000 Na+ 1.000 SO4-- -.7240 -.7323 -.7400 -.7484 -.7560 -.7630 -.7693 -.7752 * logK= -0.740000 deltaH= -1.000000 kJ NaV10O28----- charge= -5 ion size= 0.0 A b= 0.0000 mole wt.= 980.3880 g 4 species in reaction 14.000 H+ 1.000 Na+ -12.000 H2O 10.000 HVO4-- -137.0300 -137.0300 -137.0300 -137.0300 -137.0300 -137.0300 -137.0300 -137.0300 * logK= -137.030000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Nd(CO3)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 264.2584 g 2 species in reaction 2.000 CO3-- 1.000 Nd+++ -12.7300 -12.7300 -12.7300 -12.7300 -12.7300 -12.7300 -12.7300 -12.7300 * logK= -12.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Nd(NTA)2--- formula= Nd[N(CH2COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 520.4730 g 2 species in reaction 2.000 NTA--- 1.000 Nd+++ -21.7346 -21.5757 -21.4300 -21.2706 -21.1257 -20.9935 -20.8724 -20.7610 * logK= -21.430000 deltaH= 19.000000 kJ Nd(OH)4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 212.2692 g 3 species in reaction -4.000 H+ 4.000 H2O 1.000 Nd+++ 37.3880 37.3880 37.3880 37.3880 37.3880 37.3880 37.3880 37.3880 * logK= 37.388000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Nd(SO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 336.3632 g 2 species in reaction 1.000 Nd+++ 2.000 SO4-- -4.5388 -4.8317 -5.1000 -5.3937 -5.6606 -5.9041 -6.1272 -6.3324 * logK= -5.100000 deltaH= -35.000000 kJ Nd-(Acetate)2+ formula= Nd(CH3COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 262.3290 g 2 species in reaction 2.000 Acetate- 1.000 Nd+++ -4.3155 -4.4327 -4.5400 -4.6575 -4.7642 -4.8616 -4.9509 -5.0330 * logK= -4.540000 deltaH= -14.000000 kJ Nd-(Benzoate)2+ formula= Nd(C6H5COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 386.4706 g 2 species in reaction 2.000 Benzoate- 1.000 Nd+++ -4.9100 -4.9100 -4.9100 -4.9100 -4.9100 -4.9100 -4.9100 -4.9100 * logK= -4.910000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Nd-(Formate)2+ formula= Nd[HCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 234.2754 g 2 species in reaction 2.000 Formate- 1.000 Nd+++ -2.6200 -2.6200 -2.6200 -2.6200 -2.6200 -2.6200 -2.6200 -2.6200 * logK= -2.620000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Nd-(iButyrate)2+ formula= Nd[(CH3)2CHCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 318.4362 g 2 species in reaction 2.000 iButyrate- 1.000 Nd+++ -4.1033 -4.2790 -4.4400 -4.6162 -4.7763 -4.9224 -5.0563 -5.1794 * logK= -4.440000 deltaH= -21.000000 kJ Nd-(Lactate)2+ formula= Nd[CH3CH(OH)COO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 322.3814 g 2 species in reaction 2.000 Lactate- 1.000 Nd+++ -6.1141 -6.0807 -6.0500 -6.0164 -5.9859 -5.9581 -5.9326 -5.9092 * logK= -6.050000 deltaH= 4.000000 kJ Nd-(Lactate)3 (aq) formula= Nd[CH3CH(OH)COO]3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 411.4521 g 2 species in reaction 3.000 Lactate- 1.000 Nd+++ -7.6800 -7.6800 -7.6800 -7.6800 -7.6800 -7.6800 -7.6800 -7.6800 * logK= -7.680000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Nd-(Malate)2- formula= Nd(C4H4O5)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 408.3852 g 2 species in reaction 2.000 Malate-- 1.000 Nd+++ -9.6600 -9.6600 -9.6600 -9.6600 -9.6600 -9.6600 -9.6600 -9.6600 * logK= -9.660000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Nd-(Malonate)2- formula= Nd[CH2(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 348.3328 g 2 species in reaction 2.000 Malonate-- 1.000 Nd+++ -7.8093 -7.9767 -8.1300 -8.2978 -8.4503 -8.5895 -8.7170 -8.8342 * logK= -8.130000 deltaH= -20.000000 kJ Nd-(Propionate)2+ formula= Nd(CH3CH2COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 290.3826 g 2 species in reaction 2.000 Propionate- 1.000 Nd+++ -4.2916 -4.4003 -4.5000 -4.6091 -4.7082 -4.7987 -4.8815 -4.9577 * logK= -4.500000 deltaH= -13.000000 kJ Nd-Acetate++ formula= Nd(CH3COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 203.2845 g 2 species in reaction 1.000 Acetate- 1.000 Nd+++ -2.5562 -2.6156 -2.6700 -2.7296 -2.7837 -2.8331 -2.8784 -2.9200 * logK= -2.670000 deltaH= -7.100000 kJ Nd-Benzoate++ formula= Nd(C6H5COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 265.3553 g 2 species in reaction 1.000 Benzoate- 1.000 Nd+++ -2.6733 -2.7394 -2.8000 -2.8663 -2.9265 -2.9815 -3.0319 -3.0782 * logK= -2.800000 deltaH= -7.900000 kJ Nd-Butyrate++ formula= Nd[CH3CH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 231.3381 g 2 species in reaction 1.000 Butyrate- 1.000 Nd+++ -2.6900 -2.6900 -2.6900 -2.6900 -2.6900 -2.6900 -2.6900 -2.6900 * logK= -2.690000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Nd-Citrate (aq) formula= Nd[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 333.3413 g 2 species in reaction 1.000 Citrate--- 1.000 Nd+++ -9.5100 -9.5100 -9.5100 -9.5100 -9.5100 -9.5100 -9.5100 -9.5100 * logK= -9.510000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Nd-DTPA-- formula= Nd(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 532.5503 g 2 species in reaction 1.000 DTPA----- 1.000 Nd+++ -25.3210 -25.0700 -24.8400 -24.5883 -24.3595 -24.1508 -23.9595 -23.7837 * logK= -24.840000 deltaH= 30.000000 kJ Nd-Formate++ formula= Nd[HCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 189.2577 g 2 species in reaction 1.000 Formate- 1.000 Nd+++ -1.8000 -1.8000 -1.8000 -1.8000 -1.8000 -1.8000 -1.8000 -1.8000 * logK= -1.800000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Nd-Glycine++ formula= Nd[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 218.2991 g 2 species in reaction 1.000 Glycine- 1.000 Nd+++ -3.9100 -3.9100 -3.9100 -3.9100 -3.9100 -3.9100 -3.9100 -3.9100 * logK= -3.910000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Nd-HEDTA (aq) formula= Nd(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 419.4777 g 2 species in reaction 1.000 Nd+++ 1.000 HEDTA--- -17.2208 -17.0117 -16.8200 -16.6102 -16.4196 -16.2457 -16.0863 -15.9397 * logK= -16.820000 deltaH= 25.000000 kJ Nd-iButyrate++ formula= Nd[(CH3)2CHCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 231.3381 g 2 species in reaction 1.000 iButyrate- 1.000 Nd+++ -2.6136 -2.7057 -2.7900 -2.8823 -2.9662 -3.0427 -3.1128 -3.1773 * logK= -2.790000 deltaH= -11.000000 kJ Nd-iPhthalate+ formula= Nd[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 308.3572 g 2 species in reaction 1.000 iPhthalate-- 1.000 Nd+++ -3.7636 -3.8557 -3.9400 -4.0323 -4.1162 -4.1927 -4.2628 -4.3273 * logK= -3.940000 deltaH= -11.000000 kJ Nd-Lactate++ formula= Nd[CH3CH(OH)COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 233.3107 g 2 species in reaction 1.000 Lactate- 1.000 Nd+++ -3.5784 -3.4697 -3.3700 -3.2609 -3.1618 -3.0713 -2.9885 -2.9123 * logK= -3.370000 deltaH= 13.000000 kJ Nd-Malate+ formula= Nd(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 276.3126 g 2 species in reaction 1.000 Malate-- 1.000 Nd+++ -6.0600 -6.0600 -6.0600 -6.0600 -6.0600 -6.0600 -6.0600 -6.0600 * logK= -6.060000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Nd-Malonate+ formula= Nd[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 246.2864 g 2 species in reaction 1.000 Malonate-- 1.000 Nd+++ -4.9835 -5.1173 -5.2400 -5.3743 -5.4963 -5.6076 -5.7096 -5.8034 * logK= -5.240000 deltaH= -16.000000 kJ Nd-Phthalate+ formula= Nd[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 308.3572 g 2 species in reaction 1.000 Phthalate-- 1.000 Nd+++ -5.1600 -5.1600 -5.1600 -5.1600 -5.1600 -5.1600 -5.1600 -5.1600 * logK= -5.160000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Nd-Propionate++ formula= Nd(CH3CH2COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 217.3113 g 2 species in reaction 1.000 Propionate- 1.000 Nd+++ -2.7297 -2.7925 -2.8500 -2.9129 -2.9701 -3.0223 -3.0701 -3.1141 * logK= -2.850000 deltaH= -7.500000 kJ Nd-Tartrate+ formula= Nd(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 292.3120 g 2 species in reaction 1.000 Tartrate-- 1.000 Nd+++ -5.4900 -5.4900 -5.4900 -5.4900 -5.4900 -5.4900 -5.4900 -5.4900 * logK= -5.490000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Nd2(OH)2++++ charge= 4 ion size= 0.0 A b= 0.0000 mole wt.= 322.4946 g 3 species in reaction -2.000 H+ 2.000 H2O 2.000 Nd+++ 13.8940 13.8940 13.8940 13.8940 13.8940 13.8940 13.8940 13.8940 * logK= 13.894000 deltaH= 0.000000 kJ NdCO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 204.2492 g 2 species in reaction 1.000 CO3-- 1.000 Nd+++ -7.5300 -7.5300 -7.5300 -7.5300 -7.5300 -7.5300 -7.5300 -7.5300 * logK= -7.530000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NdEDTA- formula= Nd(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 432.4534 g 2 species in reaction 1.000 EDTA---- 1.000 Nd+++ -19.3105 -19.1850 -19.0700 -18.9441 -18.8298 -18.7254 -18.6298 -18.5418 * logK= -19.070000 deltaH= 15.000000 kJ NdEGTA- formula= Nd(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 520.5594 g 2 species in reaction 1.000 EGTA---- 1.000 Nd+++ -19.0500 -19.0500 -19.0500 -19.0500 -19.0500 -19.0500 -19.0500 -19.0500 * logK= -19.050000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NdF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 163.2384 g 2 species in reaction 1.000 F- 1.000 Nd+++ -3.9216 -4.0303 -4.1300 -4.2391 -4.3382 -4.4287 -4.5115 -4.5877 * logK= -4.130000 deltaH= -13.000000 kJ NdH-(Malonate)2 (aq) formula= NdH[CH2(COO)2]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 349.3407 g 3 species in reaction 2.000 Malonate-- 1.000 H+ 1.000 Nd+++ -11.7254 -11.8843 -12.0300 -12.1894 -12.3343 -12.4665 -12.5876 -12.6990 * logK= -12.030000 deltaH= -19.000000 kJ NdH-DTPA- formula= NdH(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 533.5582 g 3 species in reaction 1.000 H+ 1.000 DTPA----- 1.000 Nd+++ -27.6600 -27.6600 -27.6600 -27.6600 -27.6600 -27.6600 -27.6600 -27.6600 * logK= -27.660000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NdH-Glycine+++ formula= NdH[NH2CH2COO]+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 219.3070 g 3 species in reaction 1.000 Glycine- 1.000 H+ 1.000 Nd+++ -10.7000 -10.7000 -10.7000 -10.7000 -10.7000 -10.7000 -10.7000 -10.7000 * logK= -10.700000 deltaH= 0.000000 kJ NdH-Malonate++ formula= NdH[CH2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 247.2943 g 3 species in reaction 1.000 Malonate-- 1.000 H+ 1.000 Nd+++ -7.6189 -7.6769 -7.7300 -7.7882 -7.8410 -7.8892 -7.9334 -7.9740 * logK= -7.730000 deltaH= -6.930000 kJ NdH-Sal++ formula= NdH(OC6H4COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 281.3547 g 3 species in reaction 1.000 H+ 1.000 Sal-- 1.000 Nd+++ -16.7964 -16.5060 -16.2400 -15.9488 -15.6842 -15.4428 -15.2216 -15.0182 * logK= -16.240000 deltaH= 34.700000 kJ NdH2-(Sal)2+ formula= NdH2(OC6H4COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 418.4694 g 3 species in reaction 2.000 H+ 2.000 Sal-- 1.000 Nd+++ -33.1218 -32.5729 -32.0700 -31.5195 -31.0194 -30.5629 -30.1447 -29.7601 * logK= -32.070000 deltaH= 65.600000 kJ NdHEDTA (aq) formula= NdH(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 433.4613 g 3 species in reaction 1.000 H+ 1.000 EDTA---- 1.000 Nd+++ -20.7800 -20.7800 -20.7800 -20.7800 -20.7800 -20.7800 -20.7800 -20.7800 * logK= -20.780000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NdNO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 206.2449 g 2 species in reaction 1.000 NO3- 1.000 Nd+++ -.9100 -.9100 -.9100 -.9100 -.9100 -.9100 -.9100 -.9100 * logK= -0.910000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NdNTA (aq) formula= Nd[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 332.3565 g 2 species in reaction 1.000 NTA--- 1.000 Nd+++ -13.1194 -13.0675 -13.0200 -12.9680 -12.9207 -12.8776 -12.8380 -12.8017 * logK= -13.020000 deltaH= 6.200000 kJ NdOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 161.2473 g 3 species in reaction -1.000 H+ 1.000 H2O 1.000 Nd+++ 7.9970 7.9970 7.9970 7.9970 7.9970 7.9970 7.9970 7.9970 * logK= 7.997000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NdOH-Glycine+ formula= NdOH[NH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 235.3064 g 4 species in reaction 1.000 Glycine- -1.000 H+ 1.000 H2O 1.000 Nd+++ 4.1000 4.1000 4.1000 4.1000 4.1000 4.1000 4.1000 4.1000 * logK= 4.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NdOH-HEDTA- formula= NdOH(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 436.4850 g 4 species in reaction -1.000 H+ 1.000 H2O 1.000 Nd+++ 1.000 HEDTA--- -6.4100 -6.4100 -6.4100 -6.4100 -6.4100 -6.4100 -6.4100 -6.4100 * logK= -6.410000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NdOHNTA- formula= NdOH[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 349.3638 g 4 species in reaction 1.000 NTA--- -1.000 H+ 1.000 H2O 1.000 Nd+++ -4.8850 -4.8850 -4.8850 -4.8850 -4.8850 -4.8850 -4.8850 -4.8850 * logK= -4.885000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NdSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 240.3016 g 2 species in reaction 1.000 Nd+++ 1.000 SO4-- -3.3393 -3.5067 -3.6600 -3.8278 -3.9803 -4.1195 -4.2470 -4.3642 * logK= -3.660000 deltaH= -20.000000 kJ NH3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 17.0304 g 2 species in reaction -1.000 H+ 1.000 NH4+ 10.0841 9.6451 9.2442 8.8070 8.4114 8.0521 7.7243 7.4244 * logK= 9.244000 deltaH= -52.000000 kJ * analytic data = .6322 -.001225 -2835.76 0 0 0 0 NH4-Malate- formula= NH4(C4H4O5)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 150.1109 g 2 species in reaction 1.000 Malate-- 1.000 NH4+ -.9000 -.9000 -.9000 -.9000 -.9000 -.9000 -.9000 -.9000 * logK= -0.900000 deltaH= 0.000000 kJ NH4-Malonate- formula= NH4[CH2(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 120.0847 g 2 species in reaction 1.000 Malonate-- 1.000 NH4+ -1.1000 -1.1000 -1.1000 -1.1000 -1.1000 -1.1000 -1.1000 -1.1000 * logK= -1.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NH4-Oxalate- formula= NH4[(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 106.0579 g 2 species in reaction 1.000 NH4+ 1.000 Oxalate-- -.9000 -.9000 -.9000 -.9000 -.9000 -.9000 -.9000 -.9000 * logK= -0.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NH4-Phthalate- formula= NH4[C6H4(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 182.1555 g 2 species in reaction 1.000 Phthalate-- 1.000 NH4+ -1.3000 -1.3000 -1.3000 -1.3000 -1.3000 -1.3000 -1.3000 -1.3000 * logK= -1.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NH4-Succinate- formula= NH4[(CH2)2(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 134.1115 g 2 species in reaction 1.000 NH4+ 1.000 Succinate-- -1.1000 -1.1000 -1.1000 -1.1000 -1.1000 -1.1000 -1.1000 -1.1000 * logK= -1.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NH4-Tartrate- formula= NH4(C4H4O6)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 166.1103 g 2 species in reaction 1.000 Tartrate-- 1.000 NH4+ -.7300 -.7300 -.7300 -.7300 -.7300 -.7300 -.7300 -.7300 * logK= -0.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NH4Cr2O7- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 234.0261 g 4 species in reaction 2.000 CrO4-- 2.000 H+ 1.000 NH4+ -1.000 H2O -16.0012 -15.7083 -15.4400 -15.1463 -14.8794 -14.6359 -14.4128 -14.2076 * logK= -15.440000 deltaH= 35.000000 kJ NH4Fe(CN)6--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 229.9915 g 3 species in reaction 1.000 Fe++ 1.000 NH4+ 6.000 CN- -43.3760 -40.4138 -37.7000 -34.7294 -32.0304 -29.5673 -27.3106 -25.2352 * logK= -37.700000 deltaH= 354.000000 kJ NH4SO4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 114.0999 g 2 species in reaction 1.000 NH4+ 1.000 SO4-- -1.0300 -1.0300 -1.0300 -1.0300 -1.0300 -1.0300 -1.0300 -1.0300 * logK= -1.030000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ni(CN)4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 162.7808 g 2 species in reaction 1.000 Ni++ 4.000 CN- -33.0861 -31.5799 -30.2000 -28.6895 -27.3171 -26.0647 -24.9172 -23.8620 * logK= -30.200000 deltaH= 180.000000 kJ Ni(NH3)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 92.7708 g 3 species in reaction -2.000 H+ 1.000 Ni++ 2.000 NH4+ 14.7965 14.1773 13.6100 12.9890 12.4248 11.9099 11.4382 11.0044 * logK= 13.610000 deltaH= -74.000000 kJ Ni(NH3)3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 109.8012 g 3 species in reaction -3.000 H+ 1.000 Ni++ 3.000 NH4+ 22.9537 22.0333 21.1900 20.2669 19.4282 18.6629 17.9616 17.3168 * logK= 21.190000 deltaH= -110.000000 kJ Ni(NH3)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 126.8316 g 3 species in reaction -4.000 H+ 1.000 Ni++ 4.000 NH4+ 31.6189 30.4139 29.3100 28.1016 27.0037 26.0018 25.0838 24.2396 * logK= 29.310000 deltaH= -144.000000 kJ Ni(NH3)5++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 143.8620 g 3 species in reaction -5.000 H+ 1.000 Ni++ 5.000 NH4+ 40.8258 39.2937 37.8900 36.3535 34.9575 33.6835 32.5162 31.4428 * logK= 37.890000 deltaH= -183.100000 kJ Ni(NH3)6++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 160.8924 g 3 species in reaction -6.000 H+ 1.000 Ni++ 6.000 NH4+ 50.6574 48.8374 47.1700 45.3448 43.6865 42.1732 40.7867 39.5116 * logK= 47.170000 deltaH= -217.500000 kJ Ni(NO2)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 150.7210 g 2 species in reaction 1.000 Ni++ 2.000 NO2- -1.7900 -1.7900 -1.7900 -1.7900 -1.7900 -1.7900 -1.7900 -1.7900 * logK= -1.790000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ni(NTA)2---- formula= Ni[N(CH2COO)3]2---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 434.9430 g 2 species in reaction 2.000 NTA--- 1.000 Ni++ -17.4731 -17.2053 -16.9600 -16.6915 -16.4475 -16.2248 -16.0208 -15.8332 * logK= -16.960000 deltaH= 32.000000 kJ Ni(OH)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 92.7246 g 3 species in reaction -2.000 H+ 1.000 Ni++ 2.000 H2O 18.9940 18.9940 18.9940 18.9940 18.9940 18.9940 18.9940 18.9940 * logK= 18.994000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ni(OH)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 109.7319 g 3 species in reaction -3.000 H+ 1.000 Ni++ 3.000 H2O 29.9910 29.9910 29.9910 29.9910 29.9910 29.9910 29.9910 29.9910 * logK= 29.991000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ni(SCN)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 174.8734 g 2 species in reaction 1.000 Ni++ 2.000 SCN- -3.1767 -3.0010 -2.8400 -2.6638 -2.5037 -2.3576 -2.2237 -2.1006 * logK= -2.840000 deltaH= 21.000000 kJ Ni(SCN)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 232.9551 g 2 species in reaction 1.000 Ni++ 3.000 SCN- -2.6712 -2.3783 -2.1100 -1.8163 -1.5494 -1.3059 -1.0828 -.8776 * logK= -2.110000 deltaH= 35.000000 kJ Ni(SO4)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 250.8332 g 2 species in reaction 1.000 Ni++ 2.000 SO4-- -.8200 -.8200 -.8200 -.8200 -.8200 -.8200 -.8200 -.8200 * logK= -0.820000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ni-(Acetate)2 (aq) formula= Ni(CH3COO)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 176.7990 g 2 species in reaction 2.000 Acetate- 1.000 Ni++ -2.2397 -2.3233 -2.4000 -2.4839 -2.5602 -2.6297 -2.6935 -2.7521 * logK= -2.400000 deltaH= -10.000000 kJ Ni-(Citrate)2---- formula= Ni[C3H5O(COO)3]2---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 436.9126 g 2 species in reaction 2.000 Citrate--- 1.000 Ni++ -8.8076 -8.9080 -9.0000 -9.1007 -9.1922 -9.2757 -9.3522 -9.4225 * logK= -9.000000 deltaH= -12.000000 kJ Ni-(Glutamate)2-- formula= Ni(C5H7NO4)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 348.9392 g 2 species in reaction 2.000 Glutamate-- 1.000 Ni++ -11.1610 -10.9100 -10.6800 -10.4283 -10.1995 -9.9908 -9.7995 -9.6237 * logK= -10.680000 deltaH= 30.000000 kJ Ni-(Glycine)2 (aq) formula= Ni[NH2CH2COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 206.8282 g 2 species in reaction 2.000 Glycine- 1.000 Ni++ -11.7293 -11.4113 -11.1200 -10.8011 -10.5114 -10.2470 -10.0047 -9.7820 * logK= -11.120000 deltaH= 38.000000 kJ Ni-(Glycine)3- formula= Ni[NH2CH2COO]3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 280.8873 g 2 species in reaction 3.000 Glycine- 1.000 Ni++ -15.5989 -15.0776 -14.6000 -14.0772 -13.6022 -13.1687 -12.7716 -12.4063 * logK= -14.600000 deltaH= 62.300000 kJ Ni-(Lactate)2 (aq) formula= Ni[CH3CH(OH)COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 236.8514 g 2 species in reaction 2.000 Lactate- 1.000 Ni++ -3.5021 -3.4853 -3.4700 -3.4532 -3.4380 -3.4241 -3.4113 -3.3996 * logK= -3.470000 deltaH= 2.000000 kJ Ni-(Lactate)3- formula= Ni[CH3CH(OH)COO]3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 325.9221 g 2 species in reaction 3.000 Lactate- 1.000 Ni++ -3.7100 -3.7100 -3.7100 -3.7100 -3.7100 -3.7100 -3.7100 -3.7100 * logK= -3.710000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ni-(Malonate)2-- formula= Ni[CH2(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 262.8028 g 2 species in reaction 2.000 Malonate-- 1.000 Ni++ -5.8000 -5.8000 -5.8000 -5.8000 -5.8000 -5.8000 -5.8000 -5.8000 * logK= -5.800000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ni-(Oxalate)2-- formula= Ni[(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 234.7492 g 2 species in reaction 1.000 Ni++ 2.000 Oxalate-- -8.5202 -8.4783 -8.4400 -8.3980 -8.3599 -8.3251 -8.2933 -8.2639 * logK= -8.440000 deltaH= 5.000000 kJ Ni-(Sal)2-- formula= Ni(OC6H4COO)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 330.9236 g 2 species in reaction 2.000 Sal-- 1.000 Ni++ -12.6000 -12.6000 -12.6000 -12.6000 -12.6000 -12.6000 -12.6000 -12.6000 * logK= -12.600000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ni-Acetate+ formula= Ni(CH3COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 117.7545 g 2 species in reaction 1.000 Acetate- 1.000 Ni++ -1.3005 -1.3733 -1.4400 -1.5130 -1.5793 -1.6399 -1.6953 -1.7463 * logK= -1.440000 deltaH= -8.700000 kJ Ni-Benzoate+ formula= Ni(C6H5COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 179.8253 g 2 species in reaction 1.000 Ni++ 1.000 Benzoate- -.8976 -.9980 -1.0900 -1.1907 -1.2822 -1.3657 -1.4422 -1.5125 * logK= -1.090000 deltaH= -12.000000 kJ Ni-Butyrate+ formula= Ni[CH3CH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 145.8081 g 2 species in reaction 1.000 Ni++ 1.000 Butyrate- -.6910 -.6910 -.6910 -.6910 -.6910 -.6910 -.6910 -.6910 * logK= -0.691000 deltaH= 0.000000 kJ Ni-Citrate- formula= Ni[C3H5O(COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 247.8113 g 2 species in reaction 1.000 Citrate--- 1.000 Ni++ -6.3835 -6.5173 -6.6400 -6.7743 -6.8963 -7.0076 -7.1096 -7.2034 * logK= -6.640000 deltaH= -16.000000 kJ Ni-DTPA--- formula= Ni(C14H18N3O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 447.0203 g 2 species in reaction 1.000 Ni++ 1.000 DTPA----- -23.0004 -22.6088 -22.2500 -21.8573 -21.5005 -21.1748 -20.8765 -20.6021 * logK= -22.250000 deltaH= 46.800000 kJ Ni-Formate+ formula= Ni[HCOO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 103.7277 g 2 species in reaction 1.000 Ni++ 1.000 Formate- -1.2100 -1.2100 -1.2100 -1.2100 -1.2100 -1.2100 -1.2100 -1.2100 * logK= -1.210000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ni-Glutamate (aq) formula= Ni(C5H7NO4) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 203.8246 g 2 species in reaction 1.000 Glutamate-- 1.000 Ni++ -6.4800 -6.4800 -6.4800 -6.4800 -6.4800 -6.4800 -6.4800 -6.4800 * logK= -6.480000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ni-Glutarate (aq) formula= Ni[C3H6(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 188.8100 g 2 species in reaction 1.000 Ni++ 1.000 Glutarate-- -2.3898 -2.4317 -2.4700 -2.5120 -2.5501 -2.5849 -2.6167 -2.6461 * logK= -2.470000 deltaH= -5.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ni-Glycine+ formula= Ni[NH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 132.7691 g 2 species in reaction 1.000 Glycine- 1.000 Ni++ -6.4386 -6.2880 -6.1500 -5.9990 -5.8617 -5.7365 -5.6217 -5.5162 * logK= -6.150000 deltaH= 18.000000 kJ Ni-HEDTA- formula= Ni(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 333.9477 g 2 species in reaction 1.000 Ni++ 1.000 HEDTA--- -19.0795 -18.7196 -18.3900 -18.0292 -17.7013 -17.4021 -17.1280 -16.8759 * logK= -18.390000 deltaH= 43.000000 kJ Ni-Lactate+ formula= Ni[CH3CH(OH)COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 147.7807 g 2 species in reaction 1.000 Lactate- 1.000 Ni++ -2.2128 -2.2061 -2.2000 -2.1933 -2.1872 -2.1816 -2.1765 -2.1718 * logK= -2.200000 deltaH= 0.800000 kJ Ni-Malate (aq) formula= Ni(C4H4O5) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 190.7826 g 2 species in reaction 1.000 Malate-- 1.000 Ni++ -3.9000 -3.9000 -3.9000 -3.9000 -3.9000 -3.9000 -3.9000 -3.9000 * logK= -3.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ni-Malonate (aq) formula= Ni[CH2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 160.7564 g 2 species in reaction 1.000 Malonate-- 1.000 Ni++ -3.9733 -4.0394 -4.1000 -4.1663 -4.2265 -4.2815 -4.3319 -4.3782 * logK= -4.100000 deltaH= -7.900000 kJ Ni-Oxalate (aq) formula= Ni[(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 146.7296 g 2 species in reaction 1.000 Ni++ 1.000 Oxalate-- -5.1472 -5.1539 -5.1600 -5.1667 -5.1728 -5.1784 -5.1835 -5.1882 * logK= -5.160000 deltaH= -0.800000 kJ Ni-Phthalate (aq) formula= Ni[C6H4(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 222.8272 g 2 species in reaction 1.000 Phthalate-- 1.000 Ni++ -2.8297 -2.8925 -2.9500 -3.0129 -3.0701 -3.1223 -3.1701 -3.2141 * logK= -2.950000 deltaH= -7.500000 kJ Ni-Propionate+ formula= Ni(CH3CH2COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 131.7813 g 2 species in reaction 1.000 Propionate- 1.000 Ni++ -1.1162 -1.1547 -1.1900 -1.2286 -1.2637 -1.2957 -1.3250 -1.3520 * logK= -1.190000 deltaH= -4.600000 kJ Ni-Sal (aq) formula= Ni(OC6H4COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 194.8168 g 2 species in reaction 1.000 Sal-- 1.000 Ni++ -8.1300 -8.1300 -8.1300 -8.1300 -8.1300 -8.1300 -8.1300 -8.1300 * logK= -8.130000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ni-Succinate (aq) formula= Ni[(CH2)2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 174.7832 g 2 species in reaction 1.000 Ni++ 1.000 Succinate-- -2.3397 -2.4233 -2.5000 -2.5839 -2.6602 -2.7297 -2.7935 -2.8521 * logK= -2.500000 deltaH= -10.000000 kJ Ni-Tartrate (aq) formula= Ni(C4H4O6) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 206.7820 g 2 species in reaction 1.000 Tartrate-- 1.000 Ni++ -3.4600 -3.4600 -3.4600 -3.4600 -3.4600 -3.4600 -3.4600 -3.4600 * logK= -3.460000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ni2-DTPA- formula= Ni2(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 505.7303 g 2 species in reaction 2.000 Ni++ 1.000 DTPA----- -29.1300 -29.1300 -29.1300 -29.1300 -29.1300 -29.1300 -29.1300 -29.1300 * logK= -29.130000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ni[2-Picoline]++ formula= Ni(C6H7N)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 151.8380 g 2 species in reaction 1.000 Ni++ 1.000 2Picol -.4000 -.4000 -.4000 -.4000 -.4000 -.4000 -.4000 -.4000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -0.400000 deltaH= 0.000000 kJ Ni[3-Picoline]++ formula= Ni(C6H7N)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 151.8380 g 2 species in reaction 1.000 3Picol 1.000 Ni++ -1.8700 -1.8700 -1.8700 -1.8700 -1.8700 -1.8700 -1.8700 -1.8700 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -1.870000 deltaH= 0.000000 kJ Ni[3-Picoline]2++ formula= Ni(C6H7N)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 244.9660 g 2 species in reaction 2.000 3Picol 1.000 Ni++ -3.3000 -3.3000 -3.3000 -3.3000 -3.3000 -3.3000 -3.3000 -3.3000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -3.300000 deltaH= 0.000000 kJ Ni[3-Picoline]3++ formula= Ni(C6H7N)3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 338.0940 g 2 species in reaction 3.000 3Picol 1.000 Ni++ -4.1000 -4.1000 -4.1000 -4.1000 -4.1000 -4.1000 -4.1000 -4.1000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -4.100000 deltaH= 0.000000 kJ Ni[3-Picoline]4++ formula= Ni(C6H7N)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 431.2220 g 2 species in reaction 4.000 3Picol 1.000 Ni++ -4.6000 -4.6000 -4.6000 -4.6000 -4.6000 -4.6000 -4.6000 -4.6000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -4.600000 deltaH= 0.000000 kJ Ni[4-Picoline]++ formula= Ni(C6H7N)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 151.8380 g 2 species in reaction 1.000 4Picol 1.000 Ni++ -2.1100 -2.1100 -2.1100 -2.1100 -2.1100 -2.1100 -2.1100 -2.1100 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.110000 deltaH= 0.000000 kJ Ni[4-Picoline]2++ formula= Ni(C6H7N)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 244.9660 g 2 species in reaction 2.000 4Picol 1.000 Ni++ -3.5900 -3.5900 -3.5900 -3.5900 -3.5900 -3.5900 -3.5900 -3.5900 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -3.590000 deltaH= 0.000000 kJ Ni[4-Picoline]3++ formula= Ni(C6H7N)3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 338.0940 g 2 species in reaction 3.000 4Picol 1.000 Ni++ -4.3400 -4.3400 -4.3400 -4.3400 -4.3400 -4.3400 -4.3400 -4.3400 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -4.340000 deltaH= 0.000000 kJ Ni[4-Picoline]4++ formula= Ni(C6H7N)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 431.2220 g 2 species in reaction 4.000 4Picol 1.000 Ni++ -4.7000 -4.7000 -4.7000 -4.7000 -4.7000 -4.7000 -4.7000 -4.7000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -4.700000 deltaH= 0.000000 kJ Ni[Diethylamine]++ formula= Ni[(CH3CH2)2NH]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 131.8476 g 2 species in reaction 1.000 DiEtAm 1.000 Ni++ -2.7800 -2.7800 -2.7800 -2.7800 -2.7800 -2.7800 -2.7800 -2.7800 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.780000 deltaH= 0.000000 kJ Ni[Diethylamine]2++ formula= Ni[(CH3CH2)2NH]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 204.9852 g 2 species in reaction 2.000 DiEtAm 1.000 Ni++ -4.9700 -4.9700 -4.9700 -4.9700 -4.9700 -4.9700 -4.9700 -4.9700 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -4.970000 deltaH= 0.000000 kJ Ni[Diethylamine]3++ formula= Ni[(CH3CH2)2NH]3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 278.1228 g 2 species in reaction 3.000 DiEtAm 1.000 Ni++ -6.7200 -6.7200 -6.7200 -6.7200 -6.7200 -6.7200 -6.7200 -6.7200 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -6.720000 deltaH= 0.000000 kJ Ni[Diethylamine]4++ formula= Ni[(CH3CH2)2NH]4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 351.2604 g 2 species in reaction 4.000 DiEtAm 1.000 Ni++ -7.9300 -7.9300 -7.9300 -7.9300 -7.9300 -7.9300 -7.9300 -7.9300 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -7.930000 deltaH= 0.000000 kJ Ni[Diethylamine]5++ formula= Ni[(CH3CH2)2NH]5++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 424.3980 g 2 species in reaction 5.000 DiEtAm 1.000 Ni++ -8.8700 -8.8700 -8.8700 -8.8700 -8.8700 -8.8700 -8.8700 -8.8700 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -8.870000 deltaH= 0.000000 kJ Ni[Dimethylamine]++ formula= Ni[(CH3)2NH]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 103.7940 g 2 species in reaction 1.000 DiMeAm 1.000 Ni++ -1.4700 -1.4700 -1.4700 -1.4700 -1.4700 -1.4700 -1.4700 -1.4700 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -1.470000 deltaH= 0.000000 kJ Ni[Ethylenediamine]++ formula= Ni[C2H4(NH2)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 118.8086 g 2 species in reaction 1.000 Ni++ 1.000 EtDiAm -7.9238 -7.6087 -7.3200 -7.0040 -6.7169 -6.4549 -6.2148 -5.9941 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -7.320000 deltaH= 37.656000 kJ Ni[Ethylenediamine]2++ formula= Ni[C2H4(NH2)2]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 178.9072 g 2 species in reaction 1.000 Ni++ 2.000 EtDiAm -14.7277 -14.0870 -13.5000 -12.8575 -12.2737 -11.7410 -11.2529 -10.8040 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -13.500000 deltaH= 76.567200 kJ Ni[Ethylenediamine]3++ formula= Ni[C2H4(NH2)2]3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 239.0058 g 2 species in reaction 1.000 Ni++ 3.000 EtDiAm -19.4784 -18.4981 -17.6000 -16.6169 -15.7237 -14.9086 -14.1617 -13.4749 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -17.600000 deltaH= 117.152000 kJ Ni[Isopropylamine]++ formula= Ni[(CH3)2CHNH2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 117.8208 g 2 species in reaction 1.000 Ni++ 1.000 iPrAm -2.7100 -2.7100 -2.7100 -2.7100 -2.7100 -2.7100 -2.7100 -2.7100 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.710000 deltaH= 0.000000 kJ Ni[Isopropylamine]2++ formula= Ni[(CH3)2CHNH2]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 176.9316 g 2 species in reaction 1.000 Ni++ 2.000 iPrAm -4.8600 -4.8600 -4.8600 -4.8600 -4.8600 -4.8600 -4.8600 -4.8600 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -4.860000 deltaH= 0.000000 kJ Ni[Isopropylamine]3++ formula= Ni[(CH3)2CHNH2]3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 236.0424 g 2 species in reaction 1.000 Ni++ 3.000 iPrAm -6.5700 -6.5700 -6.5700 -6.5700 -6.5700 -6.5700 -6.5700 -6.5700 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -6.570000 deltaH= 0.000000 kJ Ni[Isopropylamine]4++ formula= Ni[(CH3)2CHNH2]4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 295.1532 g 2 species in reaction 1.000 Ni++ 4.000 iPrAm -7.8300 -7.8300 -7.8300 -7.8300 -7.8300 -7.8300 -7.8300 -7.8300 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -7.830000 deltaH= 0.000000 kJ Ni[Isopropylamine]5++ formula= Ni[(CH3)2CHNH2]5++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 354.2640 g 2 species in reaction 1.000 Ni++ 5.000 iPrAm -8.4300 -8.4300 -8.4300 -8.4300 -8.4300 -8.4300 -8.4300 -8.4300 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -8.430000 deltaH= 0.000000 kJ Ni[Methylamine]++ formula= Ni(CH3NH2)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 89.7672 g 2 species in reaction 1.000 MeAm 1.000 Ni++ -2.2300 -2.2300 -2.2300 -2.2300 -2.2300 -2.2300 -2.2300 -2.2300 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.230000 deltaH= 0.000000 kJ Ni[Propylamine]++ formula= Ni[CH3(CH2)2NH2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 117.8208 g 2 species in reaction 1.000 Ni++ 1.000 PrAm -2.8100 -2.8100 -2.8100 -2.8100 -2.8100 -2.8100 -2.8100 -2.8100 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.810000 deltaH= 0.000000 kJ Ni[Propylamine]2++ formula= Ni[CH3(CH2)2NH2]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 176.9316 g 2 species in reaction 1.000 Ni++ 2.000 PrAm -5.0200 -5.0200 -5.0200 -5.0200 -5.0200 -5.0200 -5.0200 -5.0200 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -5.020000 deltaH= 0.000000 kJ Ni[Propylamine]3++ formula= Ni[CH3(CH2)2NH2]3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 236.0424 g 2 species in reaction 1.000 Ni++ 3.000 PrAm -6.7900 -6.7900 -6.7900 -6.7900 -6.7900 -6.7900 -6.7900 -6.7900 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -6.790000 deltaH= 0.000000 kJ Ni[Propylamine]4++ formula= Ni[CH3(CH2)2NH2]4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 295.1532 g 2 species in reaction 1.000 Ni++ 4.000 PrAm -8.3100 -8.3100 -8.3100 -8.3100 -8.3100 -8.3100 -8.3100 -8.3100 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -8.310000 deltaH= 0.000000 kJ NiBr+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 138.6140 g 2 species in reaction 1.000 Br- 1.000 Ni++ -.5000 -.5000 -.5000 -.5000 -.5000 -.5000 -.5000 -.5000 * logK= -0.500000 deltaH= 0.000000 kJ NiCl+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 94.1630 g 2 species in reaction 1.000 Cl- 1.000 Ni++ .4621 .4453 .4300 .4132 .3980 .3841 .3713 .3596 * logK= 0.430000 deltaH= -2.000000 kJ NiCl2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 129.6160 g 2 species in reaction 2.000 Cl- 1.000 Ni++ 1.8900 1.8900 1.8900 1.8900 1.8900 1.8900 1.8900 1.8900 * logK= 1.890000 deltaH= 0.000000 kJ NiCO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 118.7192 g 2 species in reaction 1.000 Ni++ 1.000 CO3-- -4.5700 -4.5700 -4.5700 -4.5700 -4.5700 -4.5700 -4.5700 -4.5700 * logK= -4.570000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NiEDTA-- formula= Ni(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 346.9234 g 2 species in reaction 1.000 Ni++ 1.000 EDTA---- -20.5910 -20.3400 -20.1100 -19.8583 -19.6295 -19.4208 -19.2295 -19.0537 * logK= -20.110000 deltaH= 30.000000 kJ NiF+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 77.7084 g 2 species in reaction 1.000 Ni++ 1.000 F- -1.1862 -1.2456 -1.3000 -1.3596 -1.4137 -1.4631 -1.5084 -1.5500 * logK= -1.300000 deltaH= -7.100000 kJ NiH(CN)4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 163.7887 g 3 species in reaction 1.000 H+ 1.000 Ni++ 4.000 CN- -36.0300 -36.0300 -36.0300 -36.0300 -36.0300 -36.0300 -36.0300 -36.0300 * logK= -36.030000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NiH-(Citrate)2--- formula= NiH[C3H5O(COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 437.9205 g 3 species in reaction 1.000 H+ 2.000 Citrate--- 1.000 Ni++ -14.4981 -14.7600 -15.0000 -15.2627 -15.5013 -15.7191 -15.9186 -16.1021 * logK= -15.000000 deltaH= -31.300000 kJ NiH-Citrate (aq) formula= NiH[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 248.8192 g 3 species in reaction 1.000 H+ 1.000 Citrate--- 1.000 Ni++ -10.3847 -10.5127 -10.6300 -10.7584 -10.8750 -10.9815 -11.0790 -11.1687 * logK= -10.630000 deltaH= -15.300000 kJ NiH-DTPA-- formula= NiH(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 448.0282 g 3 species in reaction 1.000 H+ 1.000 Ni++ 1.000 DTPA----- -28.5300 -28.5300 -28.5300 -28.5300 -28.5300 -28.5300 -28.5300 -28.5300 * logK= -28.530000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NiH-HEDTA (aq) formula= NiH(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 334.9556 g 3 species in reaction 1.000 H+ 1.000 Ni++ 1.000 HEDTA--- -21.2000 -21.2000 -21.2000 -21.2000 -21.2000 -21.2000 -21.2000 -21.2000 * logK= -21.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NiH-Malate+ formula= NiH(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 191.7905 g 3 species in reaction 1.000 H+ 1.000 Malate-- 1.000 Ni++ -7.3600 -7.3600 -7.3600 -7.3600 -7.3600 -7.3600 -7.3600 -7.3600 * logK= -7.360000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NiH-Malonate+ formula= NiH[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 161.7643 g 3 species in reaction 1.000 Malonate-- 1.000 H+ 1.000 Ni++ -7.1700 -7.1700 -7.1700 -7.1700 -7.1700 -7.1700 -7.1700 -7.1700 * logK= -7.170000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NiH-Phthalate+ formula= NiH[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 223.8351 g 3 species in reaction 1.000 Phthalate-- 1.000 H+ 1.000 Ni++ -6.6500 -6.6500 -6.6500 -6.6500 -6.6500 -6.6500 -6.6500 -6.6500 * logK= -6.650000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NiH-Succinate+ formula= NiH[(CH2)2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 175.7911 g 3 species in reaction 1.000 H+ 1.000 Ni++ 1.000 Succinate-- -6.9400 -6.9400 -6.9400 -6.9400 -6.9400 -6.9400 -6.9400 -6.9400 * logK= -6.940000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NiH-Tartrate+ formula= NiH(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 207.7899 g 3 species in reaction 1.000 Tartrate-- 1.000 H+ 1.000 Ni++ -5.8900 -5.8900 -5.8900 -5.8900 -5.8900 -5.8900 -5.8900 -5.8900 * logK= -5.890000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NiH2-Citrate+ formula= NiH2[C3H5O(COO)3]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 249.8271 g 3 species in reaction 2.000 H+ 1.000 Citrate--- 1.000 Ni++ -13.2900 -13.2900 -13.2900 -13.2900 -13.2900 -13.2900 -13.2900 -13.2900 * logK= -13.290000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NiH2CN4 (aq) formula= NiH2(CN)4 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 164.7966 g 3 species in reaction 2.000 H+ 1.000 Ni++ 4.000 CN- -40.7400 -40.7400 -40.7400 -40.7400 -40.7400 -40.7400 -40.7400 -40.7400 * logK= -40.740000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NiH2EDTA (aq) formula= NiH2(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 348.9392 g 3 species in reaction 2.000 H+ 1.000 Ni++ 1.000 EDTA---- -24.7400 -24.7400 -24.7400 -24.7400 -24.7400 -24.7400 -24.7400 -24.7400 * logK= -24.740000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NiH2PO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 155.6972 g 3 species in reaction 2.000 H+ 1.000 PO4--- 1.000 Ni++ -20.5000 -20.5000 -20.5000 -20.5000 -20.5000 -20.5000 -20.5000 -20.5000 * logK= -20.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NiH3(CN)4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 165.8045 g 3 species in reaction 3.000 H+ 1.000 Ni++ 4.000 CN- -43.3400 -43.3400 -43.3400 -43.3400 -43.3400 -43.3400 -43.3400 -43.3400 * logK= -43.340000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NiHCO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 119.7271 g 3 species in reaction 1.000 H+ 1.000 Ni++ 1.000 CO3-- -12.4200 -12.4200 -12.4200 -12.4200 -12.4200 -12.4200 -12.4200 -12.4200 * logK= -12.420000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NiHEDTA- formula= NiH(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 347.9313 g 3 species in reaction 1.000 H+ 1.000 Ni++ 1.000 EDTA---- -24.2413 -23.9275 -23.6400 -23.3253 -23.0394 -22.7785 -22.5394 -22.3196 * logK= -23.640000 deltaH= 37.500000 kJ NiHPO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 154.6893 g 3 species in reaction 1.000 H+ 1.000 PO4--- 1.000 Ni++ -15.3300 -15.3300 -15.3300 -15.3300 -15.3300 -15.3300 -15.3300 -15.3300 * logK= -15.330000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NiHS+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 91.7819 g 2 species in reaction 1.000 Ni++ 1.000 HS- -5.4900 -5.4900 -5.4900 -5.4900 -5.4900 -5.4900 -5.4900 -5.4900 * logK= -5.490000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NiNH3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 75.7404 g 3 species in reaction -1.000 H+ 1.000 Ni++ 1.000 NH4+ 7.1133 6.8036 6.5200 6.2095 5.9274 5.6700 5.4341 5.2172 * logK= 6.520000 deltaH= -37.000000 kJ NiNO2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 104.7155 g 2 species in reaction 1.000 Ni++ 1.000 NO2- -1.3800 -1.3800 -1.3800 -1.3800 -1.3800 -1.3800 -1.3800 -1.3800 * logK= -1.380000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NiNO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 120.7149 g 2 species in reaction 1.000 NO3- 1.000 Ni++ -.4000 -.4000 -.4000 -.4000 -.4000 -.4000 -.4000 -.4000 * logK= -0.400000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NiNTA- formula= Ni[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 246.8265 g 2 species in reaction 1.000 NTA--- 1.000 Ni++ -12.9503 -12.8667 -12.7900 -12.7061 -12.6298 -12.5603 -12.4965 -12.4379 * logK= -12.790000 deltaH= 10.000000 kJ NiOH+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 75.7173 g 3 species in reaction -1.000 H+ 1.000 Ni++ 1.000 H2O 10.7277 10.2942 9.8970 9.4622 9.0672 8.7067 8.3764 8.0727 * logK= 9.897000 deltaH= -51.810000 kJ NiOHEDTA--- formula= NiOH(C10H12N2O8)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 363.9307 g 4 species in reaction -1.000 H+ 1.000 Ni++ 1.000 EDTA---- 1.000 H2O -8.2876 -7.9094 -7.5630 -7.1838 -6.8392 -6.5248 -6.2367 -5.9718 * logK= -7.563000 deltaH= 45.190000 kJ NiOHNTA-- formula= NiOH[N(CH2COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 263.8338 g 4 species in reaction 1.000 NTA--- -1.000 H+ 1.000 Ni++ 1.000 H2O -1.1565 -1.3305 -1.4900 -1.6645 -1.8231 -1.9679 -2.1005 -2.2224 * logK= -1.490000 deltaH= -20.800000 kJ NiS2O3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 170.8362 g 2 species in reaction 1.000 S2O3-- 1.000 Ni++ -2.0440 -2.0523 -2.0600 -2.0684 -2.0760 -2.0830 -2.0893 -2.0952 * logK= -2.060000 deltaH= -1.000000 kJ NiSCN+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 116.7917 g 2 species in reaction 1.000 Ni++ 1.000 SCN- -1.9339 -1.8536 -1.7800 -1.6994 -1.6262 -1.5595 -1.4983 -1.4420 * logK= -1.780000 deltaH= 9.600000 kJ NiSeO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 201.6676 g 2 species in reaction 1.000 Ni++ 1.000 SeO4-- -2.4455 -2.5627 -2.6700 -2.7875 -2.8942 -2.9916 -3.0809 -3.1630 * logK= -2.670000 deltaH= -14.000000 kJ NiSO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 138.7722 g 2 species in reaction 1.000 Ni++ 1.000 SO3-- -2.8800 -2.8800 -2.8800 -2.8800 -2.8800 -2.8800 -2.8800 -2.8800 * logK= -2.880000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NiSO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 154.7716 g 2 species in reaction 1.000 Ni++ 1.000 SO4-- -2.2070 -2.2555 -2.3000 -2.3487 -2.3929 -2.4332 -2.4702 -2.5042 * logK= -2.300000 deltaH= -5.800000 kJ Np(CO3)4---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 477.0850 g 2 species in reaction 1.000 Np++++ 4.000 CO3-- -35.1000 -35.1000 -35.1000 -35.1000 -35.1000 -35.1000 -35.1000 -35.1000 * logK= -35.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Np(CO3)5------ charge= -6 ion size= 0.0 A b= 0.0000 mole wt.= 537.0942 g 2 species in reaction 1.000 Np++++ 5.000 CO3-- -33.9000 -33.9000 -33.9000 -33.9000 -33.9000 -33.9000 -33.9000 -33.9000 * logK= -33.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Np(NO3)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 361.0580 g 2 species in reaction 2.000 NO3- 1.000 Np++++ -1.5300 -1.5300 -1.5300 -1.5300 -1.5300 -1.5300 -1.5300 -1.5300 * logK= -1.530000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Np(OH)4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 305.0774 g 3 species in reaction -4.000 H+ 1.000 Np++++ 4.000 H2O 10.0000 10.0000 10.0000 10.0000 10.0000 10.0000 10.0000 10.0000 * logK= 10.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpCl+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 272.5012 g 2 species in reaction 1.000 Cl- 1.000 Np++++ -1.2300 -1.2300 -1.2300 -1.2300 -1.2300 -1.2300 -1.2300 -1.2300 * logK= -1.230000 deltaH= 0.000000 kJ NpCrO4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 353.0418 g 2 species in reaction 1.000 CrO4-- 1.000 Np++++ -9.5138 -9.5640 -9.6100 -9.6603 -9.7061 -9.7478 -9.7861 -9.8213 * logK= -9.610000 deltaH= -6.000000 kJ NpF+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 256.0466 g 2 species in reaction 1.000 Np++++ 1.000 F- -8.3059 -8.3393 -8.3700 -8.4036 -8.4341 -8.4619 -8.4874 -8.5108 * logK= -8.370000 deltaH= -4.000000 kJ NpNO3+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 299.0531 g 2 species in reaction 1.000 NO3- 1.000 Np++++ -1.7000 -1.7000 -1.7000 -1.7000 -1.7000 -1.7000 -1.7000 -1.7000 * logK= -1.700000 deltaH= 0.000000 kJ NpO2(CO3)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 389.0654 g 2 species in reaction 1.000 NpO2++ 2.000 CO3-- -18.0603 -17.9767 -17.9000 -17.8161 -17.7398 -17.6703 -17.6065 -17.5479 * logK= -17.900000 deltaH= 10.000000 kJ NpO2(CO3)2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 389.0654 g 2 species in reaction 1.000 NpO2+ 2.000 CO3-- -6.5500 -6.5500 -6.5500 -6.5500 -6.5500 -6.5500 -6.5500 -6.5500 * logK= -6.550000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2(CO3)3---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 449.0746 g 2 species in reaction 1.000 NpO2++ 3.000 CO3-- -22.7702 -22.4204 -22.1000 -21.7492 -21.4305 -21.1397 -20.8732 -20.6282 * logK= -22.100000 deltaH= 41.800000 kJ NpO2(CO3)3----- charge= -5 ion size= 0.0 A b= 0.0000 mole wt.= 449.0746 g 2 species in reaction 1.000 NpO2+ 3.000 CO3-- -5.5400 -5.5400 -5.5400 -5.5400 -5.5400 -5.5400 -5.5400 -5.5400 * logK= -5.540000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2(OH)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 303.0616 g 3 species in reaction -2.000 H+ 1.000 NpO2+ 2.000 H2O 23.6440 23.6440 23.6440 23.6440 23.6440 23.6440 23.6440 23.6440 * logK= 23.644000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2(OH)2CO3--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 363.0708 g 4 species in reaction -2.000 H+ 1.000 NpO2+ 1.000 CO3-- 2.000 H2O 20.8900 20.8900 20.8900 20.8900 20.8900 20.8900 20.8900 20.8900 * logK= 20.890000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2(SO4)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 461.1702 g 2 species in reaction 1.000 NpO2++ 2.000 SO4-- -4.2992 -4.5083 -4.7000 -4.9098 -5.1004 -5.2743 -5.4337 -5.5803 * logK= -4.700000 deltaH= -25.000000 kJ NpO2-(Glycine)2- formula= NpO2[NH2CH2COO]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 417.1652 g 2 species in reaction 2.000 Glycine- 1.000 NpO2+ -5.6500 -5.6500 -5.6500 -5.6500 -5.6500 -5.6500 -5.6500 -5.6500 * logK= -5.650000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2-(Lactate)2- formula= NpO2[CH3CH(OH)COO]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 447.1884 g 2 species in reaction 2.000 Lactate- 1.000 NpO2+ -2.2100 -2.2100 -2.2100 -2.2100 -2.2100 -2.2100 -2.2100 -2.2100 * logK= -2.210000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2-(Oxalate)2--- formula= NpO2[(COO)2]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 445.0862 g 2 species in reaction 1.000 NpO2+ 2.000 Oxalate-- -6.3100 -6.3100 -6.3100 -6.3100 -6.3100 -6.3100 -6.3100 -6.3100 * logK= -6.310000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2-Acetate (aq) formula= NpO2(CH3COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 328.0915 g 2 species in reaction 1.000 Acetate- 1.000 NpO2+ -1.3500 -1.3500 -1.3500 -1.3500 -1.3500 -1.3500 -1.3500 -1.3500 * logK= -1.350000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2-Citrate-- formula= NpO2[C3H5O(COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 458.1483 g 2 species in reaction 1.000 Citrate--- 1.000 NpO2+ -3.5300 -3.5300 -3.5300 -3.5300 -3.5300 -3.5300 -3.5300 -3.5300 * logK= -3.530000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2-Glutarate- formula= NpO2[C3H6(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 399.1470 g 2 species in reaction 1.000 NpO2+ 1.000 Glutarate-- -1.8600 -1.8600 -1.8600 -1.8600 -1.8600 -1.8600 -1.8600 -1.8600 * logK= -1.860000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2-Glycine (aq) formula= NpO2[NH2CH2COO] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 343.1061 g 2 species in reaction 1.000 Glycine- 1.000 NpO2+ -3.5300 -3.5300 -3.5300 -3.5300 -3.5300 -3.5300 -3.5300 -3.5300 * logK= -3.530000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2-HEDTA-- formula= NpO2(C10H15N2O7)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 544.2847 g 2 species in reaction 1.000 NpO2+ 1.000 HEDTA--- -7.5400 -7.5400 -7.5400 -7.5400 -7.5400 -7.5400 -7.5400 -7.5400 * logK= -7.540000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2-Lactate (aq) formula= NpO2[CH3CH(OH)COO] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 358.1177 g 2 species in reaction 1.000 Lactate- 1.000 NpO2+ -1.9700 -1.9700 -1.9700 -1.9700 -1.9700 -1.9700 -1.9700 -1.9700 * logK= -1.970000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2-Malonate- formula= NpO2[CH2(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 371.0934 g 2 species in reaction 1.000 Malonate-- 1.000 NpO2+ -3.1600 -3.1600 -3.1600 -3.1600 -3.1600 -3.1600 -3.1600 -3.1600 * logK= -3.160000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2-Oxalate- formula= NpO2[(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 357.0666 g 2 species in reaction 1.000 NpO2+ 1.000 Oxalate-- -4.1500 -4.1500 -4.1500 -4.1500 -4.1500 -4.1500 -4.1500 -4.1500 * logK= -4.150000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2-Phthalate- formula= NpO2[C6H4(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 433.1642 g 2 species in reaction 1.000 Phthalate-- 1.000 NpO2+ -2.6300 -2.6300 -2.6300 -2.6300 -2.6300 -2.6300 -2.6300 -2.6300 * logK= -2.630000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2-Succinate- formula= NpO2[(CH2)2(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 385.1202 g 2 species in reaction 1.000 NpO2+ 1.000 Succinate-- -2.1300 -2.1300 -2.1300 -2.1300 -2.1300 -2.1300 -2.1300 -2.1300 * logK= -2.130000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2Cl (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 304.5000 g 2 species in reaction 1.000 Cl- 1.000 NpO2+ .2900 .2900 .2900 .2900 .2900 .2900 .2900 .2900 * logK= 0.290000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2Cl+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 304.5000 g 2 species in reaction 1.000 NpO2++ 1.000 Cl- -.2400 -.2400 -.2400 -.2400 -.2400 -.2400 -.2400 -.2400 * logK= -0.240000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2CO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 329.0562 g 2 species in reaction 1.000 NpO2++ 1.000 CO3-- -9.7700 -9.7700 -9.7700 -9.7700 -9.7700 -9.7700 -9.7700 -9.7700 * logK= -9.770000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2CO3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 329.0562 g 2 species in reaction 1.000 NpO2+ 1.000 CO3-- -4.8100 -4.8100 -4.8100 -4.8100 -4.8100 -4.8100 -4.8100 -4.8100 * logK= -4.810000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2EDTA--- formula= NpO2(C10H12N2O8)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 557.2604 g 2 species in reaction 1.000 EDTA---- 1.000 NpO2+ -8.1800 -8.1800 -8.1800 -8.1800 -8.1800 -8.1800 -8.1800 -8.1800 * logK= -8.180000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2F (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 288.0454 g 2 species in reaction 1.000 NpO2+ 1.000 F- -1.7200 -1.7200 -1.7200 -1.7200 -1.7200 -1.7200 -1.7200 -1.7200 * logK= -1.720000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2F+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 288.0454 g 2 species in reaction 1.000 NpO2++ 1.000 F- -4.5900 -4.5900 -4.5900 -4.5900 -4.5900 -4.5900 -4.5900 -4.5900 * logK= -4.590000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2F2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 307.0438 g 2 species in reaction 1.000 NpO2++ 2.000 F- -7.7300 -7.7300 -7.7300 -7.7300 -7.7300 -7.7300 -7.7300 -7.7300 * logK= -7.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2F3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 326.0422 g 2 species in reaction 1.000 NpO2++ 3.000 F- -9.4800 -9.4800 -9.4800 -9.4800 -9.4800 -9.4800 -9.4800 -9.4800 * logK= -9.480000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2H-Glutarate (aq) formula= NpO2H[C3H6(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 400.1549 g 3 species in reaction 1.000 H+ 1.000 NpO2+ 1.000 Glutarate-- -6.5400 -6.5400 -6.5400 -6.5400 -6.5400 -6.5400 -6.5400 -6.5400 * logK= -6.540000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2H-HEDTA- formula= NpO2H(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 545.2926 g 3 species in reaction 1.000 H+ 1.000 NpO2+ 1.000 HEDTA--- -14.9100 -14.9100 -14.9100 -14.9100 -14.9100 -14.9100 -14.9100 -14.9100 * logK= -14.910000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2HEDTA-- formula= NpO2H(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 558.2683 g 3 species in reaction 1.000 H+ 1.000 EDTA---- 1.000 NpO2+ -14.1300 -14.1300 -14.1300 -14.1300 -14.1300 -14.1300 -14.1300 -14.1300 * logK= -14.130000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2HNTA- formula= NpO2H[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 458.1714 g 3 species in reaction 1.000 NTA--- 1.000 H+ 1.000 NpO2+ -12.4700 -12.4700 -12.4700 -12.4700 -12.4700 -12.4700 -12.4700 -12.4700 * logK= -12.470000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2HPO4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 365.0263 g 3 species in reaction 1.000 H+ 1.000 PO4--- 1.000 NpO2+ -15.2800 -15.2800 -15.2800 -15.2800 -15.2800 -15.2800 -15.2800 -15.2800 * logK= -15.280000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2NO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 331.0519 g 2 species in reaction 1.000 NpO2++ 1.000 NO3- .3600 .3600 .3600 .3600 .3600 .3600 .3600 .3600 * logK= 0.360000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2NTA-- formula= NpO2[N(CH2COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 457.1635 g 2 species in reaction 1.000 NTA--- 1.000 NpO2+ -7.4400 -7.4400 -7.4400 -7.4400 -7.4400 -7.4400 -7.4400 -7.4400 * logK= -7.440000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2OH (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 286.0543 g 3 species in reaction -1.000 H+ 1.000 NpO2+ 1.000 H2O 11.8391 11.5562 11.2970 11.0133 10.7555 10.5203 10.3047 10.1065 * logK= 11.297000 deltaH= -33.810000 kJ NpO2OH(CO3)2---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 406.0727 g 4 species in reaction -1.000 H+ 1.000 NpO2+ 2.000 CO3-- 1.000 H2O 8.0000 8.0000 8.0000 8.0000 8.0000 8.0000 8.0000 8.0000 * logK= 8.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2OH+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 286.0543 g 3 species in reaction 1.000 NpO2++ -1.000 H+ 1.000 H2O 5.1170 5.1170 5.1170 5.1170 5.1170 5.1170 5.1170 5.1170 * logK= 5.117000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2OH-HEDTA--- formula= NpO2OH(C10H15N2O7)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 561.2920 g 4 species in reaction -1.000 H+ 1.000 NpO2+ 1.000 H2O 1.000 HEDTA--- 4.4700 4.4700 4.4700 4.4700 4.4700 4.4700 4.4700 4.4700 * logK= 4.470000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2SO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 365.1086 g 2 species in reaction 1.000 NpO2++ 1.000 SO4-- -3.0135 -3.1473 -3.2700 -3.4043 -3.5263 -3.6376 -3.7396 -3.8334 * logK= -3.270000 deltaH= -16.000000 kJ NpOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 254.0555 g 3 species in reaction 1.000 Np+++ -1.000 H+ 1.000 H2O 6.8870 6.8870 6.8870 6.8870 6.8870 6.8870 6.8870 6.8870 * logK= 6.887000 deltaH= 0.000000 kJ NpOH+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 254.0555 g 3 species in reaction -1.000 H+ 1.000 Np++++ 1.000 H2O .4000 .4000 .4000 .4000 .4000 .4000 .4000 .4000 * logK= 0.400000 deltaH= 0.000000 kJ OH- charge= -1 ion size= 3.5 A b= 0.0000 mole wt.= 17.0073 g 2 species in reaction -1.000 H+ 1.000 H2O 14.8919 14.4248 13.9970 13.5287 13.1032 12.7148 12.3590 12.0319 * logK= 13.997000 deltaH= -55.810000 kJ Pb(CO3)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 327.2083 g 2 species in reaction 1.000 Pb++ 2.000 CO3-- -9.9400 -9.9400 -9.9400 -9.9400 -9.9400 -9.9400 -9.9400 -9.9400 * logK= -9.940000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb(H2BO3)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 328.8379 g 3 species in reaction 2.000 H3BO3 -2.000 H+ 1.000 Pb++ 13.3100 13.3100 13.3100 13.3100 13.3100 13.3100 13.3100 13.3100 * logK= 13.310000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb(HS)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 273.3337 g 2 species in reaction 1.000 Pb++ 2.000 HS- -15.2700 -15.2700 -15.2700 -15.2700 -15.2700 -15.2700 -15.2700 -15.2700 * logK= -15.270000 deltaH= 0.000000 kJ Pb(HS)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 306.4056 g 2 species in reaction 1.000 Pb++ 3.000 HS- -16.5700 -16.5700 -16.5700 -16.5700 -16.5700 -16.5700 -16.5700 -16.5700 * logK= -16.570000 deltaH= 0.000000 kJ Pb(NO2)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 299.2009 g 2 species in reaction 1.000 Pb++ 2.000 NO2- -3.1100 -3.1100 -3.1100 -3.1100 -3.1100 -3.1100 -3.1100 -3.1100 * logK= -3.110000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb(NO3)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 331.1997 g 2 species in reaction 2.000 NO3- 1.000 Pb++ -1.5058 -1.4506 -1.4000 -1.3446 -1.2943 -1.2484 -1.2063 -1.1676 * logK= -1.400000 deltaH= 6.600000 kJ Pb(NTA)2---- formula= Pb[N(CH2COO)3]2---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 583.4229 g 2 species in reaction 2.000 NTA--- 1.000 Pb++ -13.4400 -13.4400 -13.4400 -13.4400 -13.4400 -13.4400 -13.4400 -13.4400 * logK= -13.440000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb(OH)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 241.2045 g 3 species in reaction -2.000 H+ 1.000 Pb++ 2.000 H2O 17.0940 17.0940 17.0940 17.0940 17.0940 17.0940 17.0940 17.0940 * logK= 17.094000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb(OH)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 258.2118 g 3 species in reaction -3.000 H+ 1.000 Pb++ 3.000 H2O 28.0910 28.0910 28.0910 28.0910 28.0910 28.0910 28.0910 28.0910 * logK= 28.091000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb(SO4)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 399.3131 g 2 species in reaction 1.000 Pb++ 2.000 SO4-- -3.4700 -3.4700 -3.4700 -3.4700 -3.4700 -3.4700 -3.4700 -3.4700 * logK= -3.470000 deltaH= 0.000000 kJ Pb-(Acetate)2 (aq) formula= Pb(CH3COO)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 325.2789 g 2 species in reaction 2.000 Acetate- 1.000 Pb++ -4.0328 -4.0261 -4.0200 -4.0133 -4.0072 -4.0016 -3.9965 -3.9918 * logK= -4.020000 deltaH= 0.800000 kJ Pb-(Benzoate)2 (aq) formula= Pb(C6H5COO)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 449.4205 g 2 species in reaction 1.000 Pb++ 2.000 Benzoate- -3.6000 -3.6000 -3.6000 -3.6000 -3.6000 -3.6000 -3.6000 -3.6000 * logK= -3.600000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb-(Citrate)2---- formula= Pb[C3H5O(COO)3]2---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 585.3925 g 2 species in reaction 2.000 Citrate--- 1.000 Pb++ -6.5300 -6.5300 -6.5300 -6.5300 -6.5300 -6.5300 -6.5300 -6.5300 * logK= -6.530000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb-(Glutamate)2-- formula= Pb(C5H7NO4)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 497.4191 g 2 species in reaction 2.000 Glutamate-- 1.000 Pb++ -7.6200 -7.6200 -7.6200 -7.6200 -7.6200 -7.6200 -7.6200 -7.6200 * logK= -7.620000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb-(Glutarate)2-- formula= Pb[C3H6(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 467.3899 g 2 species in reaction 1.000 Pb++ 2.000 Glutarate-- -4.5900 -4.5900 -4.5900 -4.5900 -4.5900 -4.5900 -4.5900 -4.5900 * logK= -4.590000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb-(Glycine)2 (aq) formula= Pb[NH2CH2COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 355.3081 g 2 species in reaction 2.000 Glycine- 1.000 Pb++ -8.3600 -8.3600 -8.3600 -8.3600 -8.3600 -8.3600 -8.3600 -8.3600 * logK= -8.360000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb-(iPhthalate)2-- formula= Pb[C6H4(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 535.4243 g 2 species in reaction 2.000 iPhthalate-- 1.000 Pb++ -4.1800 -4.1800 -4.1800 -4.1800 -4.1800 -4.1800 -4.1800 -4.1800 * logK= -4.180000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb-(Lactate)2 (aq) formula= Pb[CH3CH(OH)COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 385.3313 g 2 species in reaction 2.000 Lactate- 1.000 Pb++ -3.4297 -3.5133 -3.5900 -3.6739 -3.7502 -3.8197 -3.8835 -3.9421 * logK= -3.590000 deltaH= -10.000000 kJ Pb-(Malate)2-- formula= Pb(C4H4O5)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 471.3351 g 2 species in reaction 2.000 Malate-- 1.000 Pb++ -4.5200 -4.5200 -4.5200 -4.5200 -4.5200 -4.5200 -4.5200 -4.5200 * logK= -4.520000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb-(Malonate)2-- formula= Pb[CH2(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 411.2827 g 2 species in reaction 2.000 Malonate-- 1.000 Pb++ -5.6000 -5.6000 -5.6000 -5.6000 -5.6000 -5.6000 -5.6000 -5.6000 * logK= -5.600000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb-(Malonate)3---- formula= Pb[CH2(COO)2]3---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 513.3291 g 2 species in reaction 3.000 Malonate-- 1.000 Pb++ -4.1600 -4.1600 -4.1600 -4.1600 -4.1600 -4.1600 -4.1600 -4.1600 * logK= -4.160000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb-(Oxalate)2-- formula= Pb[(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 383.2291 g 2 species in reaction 1.000 Pb++ 2.000 Oxalate-- -7.2583 -7.1913 -7.1300 -7.0629 -7.0019 -6.9462 -6.8952 -6.8483 * logK= -7.130000 deltaH= 8.000000 kJ Pb-(Phthalate)2-- formula= Pb[C6H4(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 535.4243 g 2 species in reaction 2.000 Phthalate-- 1.000 Pb++ -4.8200 -4.8200 -4.8200 -4.8200 -4.8200 -4.8200 -4.8200 -4.8200 * logK= -4.820000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb-(Propionate)2 (aq) formula= Pb(CH3CH2COO)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 353.3325 g 2 species in reaction 2.000 Propionate- 1.000 Pb++ -4.1500 -4.1500 -4.1500 -4.1500 -4.1500 -4.1500 -4.1500 -4.1500 * logK= -4.150000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb-(Succinate)2-- formula= Pb[(CH2)2(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 439.3363 g 2 species in reaction 1.000 Pb++ 2.000 Succinate-- -4.8100 -4.8100 -4.8100 -4.8100 -4.8100 -4.8100 -4.8100 -4.8100 * logK= -4.810000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb-(Tartrate)2-- formula= Pb(C4H4O6)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 503.3339 g 2 species in reaction 2.000 Tartrate-- 1.000 Pb++ -4.8200 -4.8200 -4.8200 -4.8200 -4.8200 -4.8200 -4.8200 -4.8200 * logK= -4.820000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb-Acetate+ formula= Pb(CH3COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 266.2344 g 2 species in reaction 1.000 Acetate- 1.000 Pb++ -2.5864 -2.5831 -2.5800 -2.5766 -2.5736 -2.5708 -2.5683 -2.5659 * logK= -2.580000 deltaH= 0.400000 kJ Pb-Benzoate+ formula= Pb(C6H5COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 328.3052 g 2 species in reaction 1.000 Pb++ 1.000 Benzoate- -2.4300 -2.4300 -2.4300 -2.4300 -2.4300 -2.4300 -2.4300 -2.4300 * logK= -2.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb-Butyrate+ formula= Pb[CH3CH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 294.2880 g 2 species in reaction 1.000 Pb++ 1.000 Butyrate- -2.1010 -2.1010 -2.1010 -2.1010 -2.1010 -2.1010 -2.1010 -2.1010 * logK= -2.101000 deltaH= 0.000000 kJ Pb-Citrate- formula= Pb[C3H5O(COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 396.2912 g 2 species in reaction 1.000 Citrate--- 1.000 Pb++ -5.6700 -5.6700 -5.6700 -5.6700 -5.6700 -5.6700 -5.6700 -5.6700 * logK= -5.670000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb-DTPA--- formula= Pb(C14H18N3O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 595.5002 g 2 species in reaction 1.000 Pb++ 1.000 DTPA----- -22.2103 -21.5526 -20.9500 -20.2904 -19.6911 -19.1443 -18.6432 -18.1824 * logK= -20.950000 deltaH= 78.600000 kJ Pb-Formate+ formula= Pb[HCOO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 252.2076 g 2 species in reaction 1.000 Pb++ 1.000 Formate- -2.1900 -2.1900 -2.1900 -2.1900 -2.1900 -2.1900 -2.1900 -2.1900 * logK= -2.190000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb-Glutamate (aq) formula= Pb(C5H7NO4) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 352.3045 g 2 species in reaction 1.000 Glutamate-- 1.000 Pb++ -5.6300 -5.6300 -5.6300 -5.6300 -5.6300 -5.6300 -5.6300 -5.6300 * logK= -5.630000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb-Glutarate (aq) formula= Pb[C3H6(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 337.2899 g 2 species in reaction 1.000 Pb++ 1.000 Glutarate-- -3.4400 -3.4400 -3.4400 -3.4400 -3.4400 -3.4400 -3.4400 -3.4400 * logK= -3.440000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb-Glycine+ formula= Pb[NH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 281.2490 g 2 species in reaction 1.000 Glycine- 1.000 Pb++ -5.4707 -5.3033 -5.1500 -4.9822 -4.8297 -4.6905 -4.5630 -4.4458 * logK= -5.150000 deltaH= 20.000000 kJ Pb-HEDTA- formula= Pb(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 482.4276 g 2 species in reaction 1.000 Pb++ 1.000 HEDTA--- -17.7350 -17.2940 -16.8900 -16.4478 -16.0460 -15.6793 -15.3433 -15.0344 * logK= -16.890000 deltaH= 52.700000 kJ Pb-iPhthalate (aq) formula= Pb[C6H4(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 371.3071 g 2 species in reaction 1.000 iPhthalate-- 1.000 Pb++ -3.0900 -3.0900 -3.0900 -3.0900 -3.0900 -3.0900 -3.0900 -3.0900 * logK= -3.090000 deltaH= 0.000000 kJ Pb-Lactate+ formula= Pb[CH3CH(OH)COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 296.2606 g 2 species in reaction 1.000 Lactate- 1.000 Pb++ -2.9003 -2.8375 -2.7800 -2.7171 -2.6599 -2.6077 -2.5599 -2.5159 * logK= -2.780000 deltaH= 7.500000 kJ Pb-Malate (aq) formula= Pb(C4H4O5) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 339.2625 g 2 species in reaction 1.000 Malate-- 1.000 Pb++ -3.3700 -3.3700 -3.3700 -3.3700 -3.3700 -3.3700 -3.3700 -3.3700 * logK= -3.370000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb-Malonate (aq) formula= Pb[CH2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 309.2363 g 2 species in reaction 1.000 Malonate-- 1.000 Pb++ -3.6293 -3.7967 -3.9500 -4.1178 -4.2703 -4.4095 -4.5370 -4.6542 * logK= -3.950000 deltaH= -20.000000 kJ Pb-Oxalate (aq) formula= Pb[(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 295.2095 g 2 species in reaction 1.000 Pb++ 1.000 Oxalate-- -5.2483 -5.1813 -5.1200 -5.0529 -4.9919 -4.9362 -4.8852 -4.8383 * logK= -5.120000 deltaH= 8.000000 kJ Pb-Phthalate (aq) formula= Pb[C6H4(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 371.3071 g 2 species in reaction 1.000 Phthalate-- 1.000 Pb++ -3.5900 -3.5900 -3.5900 -3.5900 -3.5900 -3.5900 -3.5900 -3.5900 * logK= -3.590000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb-Propionate+ formula= Pb(CH3CH2COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 280.2612 g 2 species in reaction 1.000 Propionate- 1.000 Pb++ -2.6400 -2.6400 -2.6400 -2.6400 -2.6400 -2.6400 -2.6400 -2.6400 * logK= -2.640000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb-Succinate (aq) formula= Pb[(CH2)2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 323.2631 g 2 species in reaction 1.000 Pb++ 1.000 Succinate-- -3.9700 -3.9700 -3.9700 -3.9700 -3.9700 -3.9700 -3.9700 -3.9700 * logK= -3.970000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb-Tartrate (aq) formula= Pb(C4H4O6) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 355.2619 g 2 species in reaction 1.000 Tartrate-- 1.000 Pb++ -3.9900 -3.9900 -3.9900 -3.9900 -3.9900 -3.9900 -3.9900 -3.9900 * logK= -3.990000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb2-DTPA- formula= Pb2(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 802.6901 g 2 species in reaction 2.000 Pb++ 1.000 DTPA----- -25.6500 -25.6500 -25.6500 -25.6500 -25.6500 -25.6500 -25.6500 -25.6500 * logK= -25.650000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb2OH+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 431.3871 g 3 species in reaction -1.000 H+ 2.000 Pb++ 1.000 H2O 6.3970 6.3970 6.3970 6.3970 6.3970 6.3970 6.3970 6.3970 * logK= 6.397000 deltaH= 0.000000 kJ Pb3(OH)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 689.5989 g 3 species in reaction -4.000 H+ 3.000 Pb++ 4.000 H2O 25.7518 24.7791 23.8880 22.9126 22.0263 21.2175 20.4765 19.7951 * logK= 23.888000 deltaH= -116.240000 kJ Pb4(OH)4++++ charge= 4 ion size= 0.0 A b= 0.0000 mole wt.= 896.7888 g 3 species in reaction -4.000 H+ 4.000 Pb++ 4.000 H2O 22.2547 21.5415 20.8880 20.1727 19.5228 18.9297 18.3863 17.8866 * logK= 20.888000 deltaH= -85.240000 kJ Pb[Ethylenediamine]++ formula= Pb[C2H4(NH2)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 267.2885 g 2 species in reaction 1.000 Pb++ 1.000 EtDiAm -5.0400 -5.0400 -5.0400 -5.0400 -5.0400 -5.0400 -5.0400 -5.0400 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -5.040000 deltaH= 0.000000 kJ Pb[Ethylenediamine]2++ formula= Pb[C2H4(NH2)2]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 327.3871 g 2 species in reaction 1.000 Pb++ 2.000 EtDiAm -8.5000 -8.5000 -8.5000 -8.5000 -8.5000 -8.5000 -8.5000 -8.5000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -8.500000 deltaH= 0.000000 kJ PbBr+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 287.0939 g 2 species in reaction 1.000 Br- 1.000 Pb++ -1.5717 -1.6387 -1.7000 -1.7671 -1.8281 -1.8838 -1.9348 -1.9817 * logK= -1.700000 deltaH= -8.000000 kJ PbBr2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 366.9979 g 2 species in reaction 2.000 Br- 1.000 Pb++ -2.6641 -2.6307 -2.6000 -2.5664 -2.5359 -2.5081 -2.4826 -2.4592 * logK= -2.600000 deltaH= 4.000000 kJ PbBr3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 446.9019 g 2 species in reaction 3.000 Br- 1.000 Pb++ -3.0741 -3.0407 -3.0100 -2.9764 -2.9459 -2.9181 -2.8926 -2.8692 * logK= -3.010000 deltaH= 4.000000 kJ PbCl+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 242.6429 g 2 species in reaction 1.000 Cl- 1.000 Pb++ -1.4205 -1.4933 -1.5600 -1.6330 -1.6993 -1.7599 -1.8153 -1.8663 * logK= -1.560000 deltaH= -8.700000 kJ PbCl2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 278.0959 g 2 species in reaction 2.000 Cl- 1.000 Pb++ -1.7076 -1.8080 -1.9000 -2.0007 -2.0922 -2.1757 -2.2522 -2.3225 * logK= -1.900000 deltaH= -12.000000 kJ PbCl3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 313.5489 g 2 species in reaction 3.000 Cl- 1.000 Pb++ -1.6076 -1.7080 -1.8000 -1.9007 -1.9922 -2.0757 -2.1522 -2.2225 * logK= -1.800000 deltaH= -12.000000 kJ PbCl4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 349.0019 g 2 species in reaction 4.000 Cl- 1.000 Pb++ -1.1427 -1.2665 -1.3800 -1.5042 -1.6170 -1.7200 -1.8144 -1.9011 * logK= -1.380000 deltaH= -14.800000 kJ PbCO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 267.1991 g 2 species in reaction 1.000 Pb++ 1.000 CO3-- -6.5300 -6.5300 -6.5300 -6.5300 -6.5300 -6.5300 -6.5300 -6.5300 * logK= -6.530000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbEDTA-- formula= Pb(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 495.4033 g 2 species in reaction 1.000 Pb++ 1.000 EDTA---- -20.5887 -20.1301 -19.7100 -19.2501 -18.8323 -18.4510 -18.1017 -17.7804 * logK= -19.710000 deltaH= 54.800000 kJ PbEGTA-- formula= Pb(C14H20N2O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 583.5093 g 2 species in reaction 1.000 EGTA---- 1.000 Pb++ -17.1486 -16.7109 -16.3100 -15.8711 -15.4724 -15.1085 -14.7751 -14.4685 * logK= -16.310000 deltaH= 52.300000 kJ PbF+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 226.1883 g 2 species in reaction 1.000 Pb++ 1.000 F- -2.1500 -2.1500 -2.1500 -2.1500 -2.1500 -2.1500 -2.1500 -2.1500 * logK= -2.150000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbF2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 245.1867 g 2 species in reaction 1.000 Pb++ 2.000 F- -3.2400 -3.2400 -3.2400 -3.2400 -3.2400 -3.2400 -3.2400 -3.2400 * logK= -3.240000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH-(Citrate)2--- formula= PbH[C3H5O(COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 586.4004 g 3 species in reaction 1.000 H+ 2.000 Citrate--- 1.000 Pb++ -12.0400 -12.0400 -12.0400 -12.0400 -12.0400 -12.0400 -12.0400 -12.0400 * logK= -12.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH-(Glycine)2+ formula= PbH[NH2CH2COO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 356.3160 g 3 species in reaction 2.000 Glycine- 1.000 H+ 1.000 Pb++ -15.2600 -15.2600 -15.2600 -15.2600 -15.2600 -15.2600 -15.2600 -15.2600 * logK= -15.260000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH-(iPhthalate)2- formula= PbH[C6H4(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 536.4322 g 3 species in reaction 2.000 iPhthalate-- 1.000 H+ 1.000 Pb++ -8.4600 -8.4600 -8.4600 -8.4600 -8.4600 -8.4600 -8.4600 -8.4600 * logK= -8.460000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH-(Malonate)2- formula= PbH[CH2(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 412.2906 g 3 species in reaction 2.000 Malonate-- 1.000 H+ 1.000 Pb++ -10.0900 -10.0900 -10.0900 -10.0900 -10.0900 -10.0900 -10.0900 -10.0900 * logK= -10.090000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH-(Malonate)3--- formula= PbH[CH2(COO)2]3--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 514.3370 g 3 species in reaction 3.000 Malonate-- 1.000 H+ 1.000 Pb++ -9.8500 -9.8500 -9.8500 -9.8500 -9.8500 -9.8500 -9.8500 -9.8500 * logK= -9.850000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH-(Phthalate)2- formula= PbH[C6H4(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 536.4322 g 3 species in reaction 2.000 Phthalate-- 1.000 H+ 1.000 Pb++ -9.0000 -9.0000 -9.0000 -9.0000 -9.0000 -9.0000 -9.0000 -9.0000 * logK= -9.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH-(Succinate)2- formula= PbH[(CH2)2(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 440.3442 g 3 species in reaction 1.000 H+ 1.000 Pb++ 2.000 Succinate-- -10.0700 -10.0700 -10.0700 -10.0700 -10.0700 -10.0700 -10.0700 -10.0700 * logK= -10.070000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH-(Tartrate)2- formula= PbH(C4H4O6)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 504.3418 g 3 species in reaction 2.000 Tartrate-- 1.000 H+ 1.000 Pb++ -8.7300 -8.7300 -8.7300 -8.7300 -8.7300 -8.7300 -8.7300 -8.7300 * logK= -8.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH-Citrate (aq) formula= PbH[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 397.2991 g 3 species in reaction 1.000 H+ 1.000 Citrate--- 1.000 Pb++ -10.2900 -10.2900 -10.2900 -10.2900 -10.2900 -10.2900 -10.2900 -10.2900 * logK= -10.290000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH-DTPA-- formula= PbH(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 596.5081 g 3 species in reaction 1.000 H+ 1.000 Pb++ 1.000 DTPA----- -26.7600 -26.7600 -26.7600 -26.7600 -26.7600 -26.7600 -26.7600 -26.7600 * logK= -26.760000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH-Glutamate+ formula= PbH(C5H7NO4)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 353.3124 g 3 species in reaction 1.000 Glutamate-- 1.000 H+ 1.000 Pb++ -12.3400 -12.3400 -12.3400 -12.3400 -12.3400 -12.3400 -12.3400 -12.3400 * logK= -12.340000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH-Glutarate+ formula= PbH[C3H6(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 338.2978 g 3 species in reaction 1.000 H+ 1.000 Pb++ 1.000 Glutarate-- -7.8300 -7.8300 -7.8300 -7.8300 -7.8300 -7.8300 -7.8300 -7.8300 * logK= -7.830000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH-Glycine++ formula= PbH[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 282.2569 g 3 species in reaction 1.000 Glycine- 1.000 H+ 1.000 Pb++ -11.5803 -11.4183 -11.2700 -11.1076 -10.9601 -10.8255 -10.7021 -10.5887 * logK= -11.270000 deltaH= 19.350000 kJ PbH-HEDTA (aq) formula= PbH(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 483.4355 g 3 species in reaction 1.000 H+ 1.000 Pb++ 1.000 HEDTA--- -19.3300 -19.3300 -19.3300 -19.3300 -19.3300 -19.3300 -19.3300 -19.3300 * logK= -19.330000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH-iPhthalate+ formula= PbH[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 372.3150 g 3 species in reaction 1.000 iPhthalate-- 1.000 H+ 1.000 Pb++ -6.6700 -6.6700 -6.6700 -6.6700 -6.6700 -6.6700 -6.6700 -6.6700 * logK= -6.670000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH-Malonate+ formula= PbH[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 310.2442 g 3 species in reaction 1.000 Malonate-- 1.000 H+ 1.000 Pb++ -7.2400 -7.2400 -7.2400 -7.2400 -7.2400 -7.2400 -7.2400 -7.2400 * logK= -7.240000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH-Oxalate+ formula= PbH[(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 296.2174 g 3 species in reaction 1.000 H+ 1.000 Pb++ 1.000 Oxalate-- -6.4500 -6.4500 -6.4500 -6.4500 -6.4500 -6.4500 -6.4500 -6.4500 * logK= -6.450000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH-Phthalate+ formula= PbH[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 372.3150 g 3 species in reaction 1.000 Phthalate-- 1.000 H+ 1.000 Pb++ -6.9800 -6.9800 -6.9800 -6.9800 -6.9800 -6.9800 -6.9800 -6.9800 * logK= -6.980000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH-Succinate+ formula= PbH[(CH2)2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 324.2710 g 3 species in reaction 1.000 H+ 1.000 Pb++ 1.000 Succinate-- -7.0900 -7.0900 -7.0900 -7.0900 -7.0900 -7.0900 -7.0900 -7.0900 * logK= -7.090000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH-Tartrate+ formula= PbH(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 356.2698 g 3 species in reaction 1.000 Tartrate-- 1.000 H+ 1.000 Pb++ -6.5400 -6.5400 -6.5400 -6.5400 -6.5400 -6.5400 -6.5400 -6.5400 * logK= -6.540000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH2-(Glutarate)2 (aq) formula= PbH2[C3H6(COO)2]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 469.4057 g 3 species in reaction 2.000 H+ 1.000 Pb++ 2.000 Glutarate-- -14.6000 -14.6000 -14.6000 -14.6000 -14.6000 -14.6000 -14.6000 -14.6000 * logK= -14.600000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH2-(Glycine)2++ formula= PbH2[NH2CH2COO]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 357.3239 g 3 species in reaction 2.000 Glycine- 2.000 H+ 1.000 Pb++ -20.8700 -20.8700 -20.8700 -20.8700 -20.8700 -20.8700 -20.8700 -20.8700 * logK= -20.870000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH2-(Malonate)2 (aq) formula= PbH2[CH2(COO)2]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 413.2985 g 3 species in reaction 2.000 Malonate-- 2.000 H+ 1.000 Pb++ -13.5100 -13.5100 -13.5100 -13.5100 -13.5100 -13.5100 -13.5100 -13.5100 * logK= -13.510000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH2-(Succinate)2 (aq) formula= PbH2[(CH2)2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 441.3521 g 3 species in reaction 2.000 H+ 1.000 Pb++ 2.000 Succinate-- -14.7500 -14.7500 -14.7500 -14.7500 -14.7500 -14.7500 -14.7500 -14.7500 * logK= -14.750000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH2-Citrate+ formula= PbH2[C3H5O(COO)3]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 398.3070 g 3 species in reaction 2.000 H+ 1.000 Citrate--- 1.000 Pb++ -13.2700 -13.2700 -13.2700 -13.2700 -13.2700 -13.2700 -13.2700 -13.2700 * logK= -13.270000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH2BO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 268.0139 g 3 species in reaction 1.000 H3BO3 -1.000 H+ 1.000 Pb++ 6.5400 6.5400 6.5400 6.5400 6.5400 6.5400 6.5400 6.5400 * logK= 6.540000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH2EDTA (aq) formula= PbH2(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 497.4191 g 3 species in reaction 2.000 H+ 1.000 Pb++ 1.000 EDTA---- -24.4400 -24.4400 -24.4400 -24.4400 -24.4400 -24.4400 -24.4400 -24.4400 * logK= -24.440000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH2PO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 304.1771 g 3 species in reaction 2.000 H+ 1.000 PO4--- 1.000 Pb++ -21.0730 -21.0730 -21.0730 -21.0730 -21.0730 -21.0730 -21.0730 -21.0730 * logK= -21.073000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbH3EDTA+ formula= PbH3(C10H12N2O8)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 498.4270 g 3 species in reaction 3.000 H+ 1.000 Pb++ 1.000 EDTA---- -25.6400 -25.6400 -25.6400 -25.6400 -25.6400 -25.6400 -25.6400 -25.6400 * logK= -25.640000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbHCO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 268.2070 g 3 species in reaction 1.000 H+ 1.000 Pb++ 1.000 CO3-- -13.2300 -13.2300 -13.2300 -13.2300 -13.2300 -13.2300 -13.2300 -13.2300 * logK= -13.230000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbHEDTA- formula= PbH(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 496.4112 g 3 species in reaction 1.000 H+ 1.000 Pb++ 1.000 EDTA---- -22.5400 -22.5400 -22.5400 -22.5400 -22.5400 -22.5400 -22.5400 -22.5400 * logK= -22.540000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbHEGTA- formula= PbH(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 584.5172 g 3 species in reaction 1.000 EGTA---- 1.000 H+ 1.000 Pb++ -21.7800 -21.7800 -21.7800 -21.7800 -21.7800 -21.7800 -21.7800 -21.7800 * logK= -21.780000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbHNTA (aq) formula= PbH[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 396.3143 g 3 species in reaction 1.000 NTA--- 1.000 H+ 1.000 Pb++ -15.3300 -15.3300 -15.3300 -15.3300 -15.3300 -15.3300 -15.3300 -15.3300 * logK= -15.330000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbHPO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 303.1692 g 3 species in reaction 1.000 H+ 1.000 PO4--- 1.000 Pb++ -15.4750 -15.4750 -15.4750 -15.4750 -15.4750 -15.4750 -15.4750 -15.4750 * logK= -15.475000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbI+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 334.0943 g 2 species in reaction 1.000 Pb++ 1.000 I- -2.0000 -2.0000 -2.0000 -2.0000 -2.0000 -2.0000 -2.0000 -2.0000 * logK= -2.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbI2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 460.9987 g 2 species in reaction 1.000 Pb++ 2.000 I- -3.2000 -3.2000 -3.2000 -3.2000 -3.2000 -3.2000 -3.2000 -3.2000 * logK= -3.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbI3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 587.9031 g 2 species in reaction 1.000 Pb++ 3.000 I- -3.9000 -3.9000 -3.9000 -3.9000 -3.9000 -3.9000 -3.9000 -3.9000 * logK= -3.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbI4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 714.8075 g 2 species in reaction 1.000 Pb++ 4.000 I- -4.5000 -4.5000 -4.5000 -4.5000 -4.5000 -4.5000 -4.5000 -4.5000 * logK= -4.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbNO2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 253.1954 g 2 species in reaction 1.000 Pb++ 1.000 NO2- -2.5100 -2.5100 -2.5100 -2.5100 -2.5100 -2.5100 -2.5100 -2.5100 * logK= -2.510000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbNO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 269.1948 g 2 species in reaction 1.000 NO3- 1.000 Pb++ -1.2021 -1.1853 -1.1700 -1.1532 -1.1380 -1.1241 -1.1113 -1.0996 * logK= -1.170000 deltaH= 2.000000 kJ PbNTA- formula= Pb[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 395.3064 g 2 species in reaction 1.000 NTA--- 1.000 Pb++ -13.0005 -12.8750 -12.7600 -12.6341 -12.5198 -12.4154 -12.3198 -12.2318 * logK= -12.760000 deltaH= 15.000000 kJ PbOH+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 224.1972 g 3 species in reaction -1.000 H+ 1.000 Pb++ 1.000 H2O 7.9788 7.7795 7.5970 7.3972 7.2157 7.0500 6.8982 6.7586 * logK= 7.597000 deltaH= -23.810000 kJ PbSCN+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 265.2716 g 2 species in reaction 1.000 Pb++ 1.000 SCN- -.8840 -.8923 -.9000 -.9084 -.9160 -.9230 -.9293 -.9352 * logK= -0.900000 deltaH= -1.000000 kJ PbSO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 303.2515 g 2 species in reaction 1.000 Pb++ 1.000 SO4-- -2.6900 -2.6900 -2.6900 -2.6900 -2.6900 -2.6900 -2.6900 -2.6900 * logK= -2.690000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pd(CN)4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 210.4908 g 2 species in reaction 1.000 Pd++ 4.000 CN- -48.5891 -45.3591 -42.4000 -39.1609 -36.2179 -33.5321 -31.0714 -28.8085 * logK= -42.400000 deltaH= 386.000000 kJ Pd(CN)5--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 236.5085 g 2 species in reaction 1.000 Pd++ 5.000 CN- -51.5052 -48.2668 -45.3000 -42.0525 -39.1018 -36.4092 -33.9420 -31.6733 * logK= -45.300000 deltaH= 387.000000 kJ Pd(NH3)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 140.4808 g 3 species in reaction -2.000 H+ 1.000 Pd++ 2.000 NH4+ -.0100 -.0100 -.0100 -.0100 -.0100 -.0100 -.0100 -.0100 * logK= -0.010000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pd(NH3)3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 157.5112 g 3 species in reaction -3.000 H+ 1.000 Pd++ 3.000 NH4+ 1.7300 1.7300 1.7300 1.7300 1.7300 1.7300 1.7300 1.7300 * logK= 1.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pd(NH3)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 174.5416 g 3 species in reaction -4.000 H+ 1.000 Pd++ 4.000 NH4+ 4.1800 4.1800 4.1800 4.1800 4.1800 4.1800 4.1800 4.1800 * logK= 4.180000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pd(NO2)4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 290.4420 g 2 species in reaction 1.000 Pd++ 4.000 NO2- -21.0400 -21.0400 -21.0400 -21.0400 -21.0400 -21.0400 -21.0400 -21.0400 * logK= -21.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pd(NTA)2---- formula= Pd[N(CH2COO)3]2---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 482.6530 g 2 species in reaction 2.000 NTA--- 1.000 Pd++ -24.3100 -24.3100 -24.3100 -24.3100 -24.3100 -24.3100 -24.3100 -24.3100 * logK= -24.310000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pd(S2O3)4------ charge= -6 ion size= 0.0 A b= 0.0000 mole wt.= 554.9248 g 2 species in reaction 4.000 S2O3-- 1.000 Pd++ -32.8400 -32.8400 -32.8400 -32.8400 -32.8400 -32.8400 -32.8400 -32.8400 * logK= -32.840000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pd(SCN)4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 338.7468 g 2 species in reaction 1.000 Pd++ 4.000 SCN- -27.3400 -27.3400 -27.3400 -27.3400 -27.3400 -27.3400 -27.3400 -27.3400 * logK= -27.340000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pd(SO3)4------ charge= -6 ion size= 0.0 A b= 0.0000 mole wt.= 426.6688 g 2 species in reaction 1.000 Pd++ 4.000 SO3-- -27.1000 -27.1000 -27.1000 -27.1000 -27.1000 -27.1000 -27.1000 -27.1000 * logK= -27.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pd-Acetate+ formula= Pd(CH3COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 165.4645 g 2 species in reaction 1.000 Acetate- 1.000 Pd++ -4.8141 -4.7807 -4.7500 -4.7164 -4.6859 -4.6581 -4.6326 -4.6092 * logK= -4.750000 deltaH= 4.000000 kJ Pd-Butyrate+ formula= Pd[CH3CH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 193.5181 g 2 species in reaction 1.000 Pd++ 1.000 Butyrate- -4.9824 -4.8820 -4.7900 -4.6893 -4.5978 -4.5143 -4.4378 -4.3675 * logK= -4.790000 deltaH= 12.000000 kJ Pd-Citrate- formula= Pd[C3H5O(COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 295.5213 g 2 species in reaction 1.000 Citrate--- 1.000 Pd++ -4.7541 -4.7207 -4.6900 -4.6564 -4.6259 -4.5981 -4.5726 -4.5492 * logK= -4.690000 deltaH= 4.000000 kJ Pd-DTPA--- formula= Pd(C14H18N3O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 494.7303 g 2 species in reaction 1.000 Pd++ 1.000 DTPA----- -31.7400 -31.7400 -31.7400 -31.7400 -31.7400 -31.7400 -31.7400 -31.7400 * logK= -31.740000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pd-Formate+ formula= Pd[HCOO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 151.4377 g 2 species in reaction 1.000 Pd++ 1.000 Formate- -4.2083 -4.1413 -4.0800 -4.0129 -3.9519 -3.8962 -3.8452 -3.7983 * logK= -4.080000 deltaH= 8.000000 kJ Pd-Lactate+ formula= Pd[CH3CH(OH)COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 195.4907 g 2 species in reaction 1.000 Lactate- 1.000 Pd++ -4.2583 -4.1913 -4.1300 -4.0629 -4.0019 -3.9462 -3.8952 -3.8483 * logK= -4.130000 deltaH= 8.000000 kJ Pd-Malate (aq) formula= Pd(C4H4O5) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 238.4926 g 2 species in reaction 1.000 Malate-- 1.000 Pd++ -4.6341 -4.6007 -4.5700 -4.5364 -4.5059 -4.4781 -4.4526 -4.4292 * logK= -4.570000 deltaH= 4.000000 kJ Pd-Malonate (aq) formula= Pd[CH2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 208.4664 g 2 species in reaction 1.000 Malonate-- 1.000 Pd++ -4.4483 -4.3813 -4.3200 -4.2529 -4.1919 -4.1362 -4.0852 -4.0383 * logK= -4.320000 deltaH= 8.000000 kJ Pd-Propionate+ formula= Pd(CH3CH2COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 179.4913 g 2 species in reaction 1.000 Propionate- 1.000 Pd++ -4.7300 -4.7300 -4.7300 -4.7300 -4.7300 -4.7300 -4.7300 -4.7300 * logK= -4.730000 deltaH= 0.000000 kJ Pd-Succinate (aq) formula= Pd[(CH2)2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 222.4932 g 2 species in reaction 1.000 Pd++ 1.000 Succinate-- -4.8317 -4.8987 -4.9600 -5.0271 -5.0881 -5.1438 -5.1948 -5.2417 * logK= -4.960000 deltaH= -8.000000 kJ PdBr+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 186.3240 g 2 species in reaction 1.000 Br- 1.000 Pd++ -5.9167 -5.7410 -5.5800 -5.4038 -5.2437 -5.0976 -4.9637 -4.8406 * logK= -5.580000 deltaH= 21.000000 kJ PdBr2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 266.2280 g 2 species in reaction 2.000 Br- 1.000 Pd++ -10.1300 -10.1300 -10.1300 -10.1300 -10.1300 -10.1300 -10.1300 -10.1300 * logK= -10.130000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PdBr3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 346.1320 g 2 species in reaction 3.000 Br- 1.000 Pd++ -13.3100 -13.3100 -13.3100 -13.3100 -13.3100 -13.3100 -13.3100 -13.3100 * logK= -13.310000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PdBr4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 426.0360 g 2 species in reaction 4.000 Br- 1.000 Pd++ -16.0087 -15.5501 -15.1300 -14.6701 -14.2523 -13.8710 -13.5217 -13.2004 * logK= -15.130000 deltaH= 54.800000 kJ PdCl+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 141.8730 g 2 species in reaction 1.000 Cl- 1.000 Pd++ -6.2924 -6.1920 -6.1000 -5.9993 -5.9078 -5.8243 -5.7478 -5.6775 * logK= -6.100000 deltaH= 12.000000 kJ PdCl2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 177.3260 g 2 species in reaction 2.000 Cl- 1.000 Pd++ -11.0688 -10.8763 -10.7000 -10.5070 -10.3316 -10.1716 -10.0250 -9.8901 * logK= -10.700000 deltaH= 23.000000 kJ PdCl3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 212.7790 g 2 species in reaction 3.000 Cl- 1.000 Pd++ -13.6452 -13.3606 -13.1000 -12.8147 -12.5555 -12.3189 -12.1021 -11.9028 * logK= -13.100000 deltaH= 34.000000 kJ PdCl4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 248.2320 g 2 species in reaction 4.000 Cl- 1.000 Pd++ -16.1776 -15.7718 -15.4000 -14.9930 -14.6232 -14.2858 -13.9766 -13.6923 * logK= -15.400000 deltaH= 48.500000 kJ PdEDTA-- formula= Pd(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 394.6334 g 2 species in reaction 1.000 Pd++ 1.000 EDTA---- -27.3100 -27.3100 -27.3100 -27.3100 -27.3100 -27.3100 -27.3100 -27.3100 * logK= -27.310000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PdH-DTPA-- formula= PdH(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 495.7382 g 3 species in reaction 1.000 H+ 1.000 Pd++ 1.000 DTPA----- -35.8500 -35.8500 -35.8500 -35.8500 -35.8500 -35.8500 -35.8500 -35.8500 * logK= -35.850000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PdH-Glycine++ formula= PdH[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 181.4870 g 3 species in reaction 1.000 Glycine- 1.000 H+ 1.000 Pd++ -15.0800 -15.0800 -15.0800 -15.0800 -15.0800 -15.0800 -15.0800 -15.0800 * logK= -15.080000 deltaH= 0.000000 kJ PdH2-(Glycine)2++ formula= PdH2[NH2CH2COO]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 256.5540 g 3 species in reaction 2.000 Glycine- 2.000 H+ 1.000 Pd++ -27.5700 -27.5700 -27.5700 -27.5700 -27.5700 -27.5700 -27.5700 -27.5700 * logK= -27.570000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PdH2-DTPA- formula= PdH2(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 496.7461 g 3 species in reaction 2.000 H+ 1.000 Pd++ 1.000 DTPA----- -39.1900 -39.1900 -39.1900 -39.1900 -39.1900 -39.1900 -39.1900 -39.1900 * logK= -39.190000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PdH3-DTPA (aq) formula= PdH3(C14H18N3O10) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 497.7540 g 3 species in reaction 3.000 H+ 1.000 Pd++ 1.000 DTPA----- -42.0500 -42.0500 -42.0500 -42.0500 -42.0500 -42.0500 -42.0500 -42.0500 * logK= -42.050000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PdH4-DTPA+ formula= PdH4(C14H18N3O10)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 498.7619 g 3 species in reaction 4.000 H+ 1.000 Pd++ 1.000 DTPA----- -43.7800 -43.7800 -43.7800 -43.7800 -43.7800 -43.7800 -43.7800 -43.7800 * logK= -43.780000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PdI+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 233.3244 g 2 species in reaction 1.000 Pd++ 1.000 I- -6.4900 -6.4900 -6.4900 -6.4900 -6.4900 -6.4900 -6.4900 -6.4900 * logK= -6.490000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PdI2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 360.2288 g 2 species in reaction 1.000 Pd++ 2.000 I- -22.7100 -22.7100 -22.7100 -22.7100 -22.7100 -22.7100 -22.7100 -22.7100 * logK= -22.710000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PdI3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 487.1332 g 2 species in reaction 1.000 Pd++ 3.000 I- -26.4100 -26.4100 -26.4100 -26.4100 -26.4100 -26.4100 -26.4100 -26.4100 * logK= -26.410000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PdI4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 614.0376 g 2 species in reaction 1.000 Pd++ 4.000 I- -28.7100 -28.7100 -28.7100 -28.7100 -28.7100 -28.7100 -28.7100 -28.7100 * logK= -28.710000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PdNH3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 123.4504 g 3 species in reaction -1.000 H+ 1.000 Pd++ 1.000 NH4+ -.3600 -.3600 -.3600 -.3600 -.3600 -.3600 -.3600 -.3600 * logK= -0.360000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PdNTA- formula= Pd[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 294.5365 g 2 species in reaction 1.000 NTA--- 1.000 Pd++ -18.2300 -18.2300 -18.2300 -18.2300 -18.2300 -18.2300 -18.2300 -18.2300 * logK= -18.230000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PdOH+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 123.4273 g 3 species in reaction -1.000 H+ 1.000 Pd++ 1.000 H2O 2.7900 2.7900 2.7900 2.7900 2.7900 2.7900 2.7900 2.7900 * logK= 2.790000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PdSO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 202.4816 g 2 species in reaction 1.000 Pd++ 1.000 SO4-- -2.2000 -2.2000 -2.2000 -2.2000 -2.2000 -2.2000 -2.2000 -2.2000 * logK= -2.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pr(CO3)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 260.9264 g 2 species in reaction 1.000 Pr+++ 2.000 CO3-- -12.6300 -12.6300 -12.6300 -12.6300 -12.6300 -12.6300 -12.6300 -12.6300 * logK= -12.630000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pr(NTA)2--- formula= Pr[N(CH2COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 517.1410 g 2 species in reaction 2.000 NTA--- 1.000 Pr+++ -21.2126 -21.0703 -20.9400 -20.7973 -20.6677 -20.5494 -20.4411 -20.3414 * logK= -20.940000 deltaH= 17.000000 kJ Pr(SO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 333.0312 g 2 species in reaction 1.000 Pr+++ 2.000 SO4-- -4.2025 -4.5665 -4.9000 -5.2650 -5.5967 -5.8994 -6.1767 -6.4317 * logK= -4.900000 deltaH= -43.500000 kJ Pr-(Acetate)2+ formula= Pr(CH3COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 258.9970 g 2 species in reaction 2.000 Acetate- 1.000 Pr+++ -4.2074 -4.3497 -4.4800 -4.6227 -4.7523 -4.8706 -4.9789 -5.0786 * logK= -4.480000 deltaH= -17.000000 kJ Pr-(Benzoate)2+ formula= Pr(C6H5COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 383.1386 g 2 species in reaction 1.000 Pr+++ 2.000 Benzoate- -4.6800 -4.6800 -4.6800 -4.6800 -4.6800 -4.6800 -4.6800 -4.6800 * logK= -4.680000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pr-(Formate)2+ formula= Pr[HCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 230.9434 g 2 species in reaction 2.000 Formate- 1.000 Pr+++ -2.6100 -2.6100 -2.6100 -2.6100 -2.6100 -2.6100 -2.6100 -2.6100 * logK= -2.610000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pr-(iButyrate)2+ formula= Pr[(CH3)2CHCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 315.1042 g 2 species in reaction 2.000 iButyrate- 1.000 Pr+++ -4.1512 -4.3437 -4.5200 -4.7130 -4.8884 -5.0484 -5.1950 -5.3299 * logK= -4.520000 deltaH= -23.000000 kJ Pr-(Lactate)2+ formula= Pr[CH3CH(OH)COO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 319.0494 g 2 species in reaction 2.000 Lactate- 1.000 Pr+++ -5.9800 -5.9800 -5.9800 -5.9800 -5.9800 -5.9800 -5.9800 -5.9800 * logK= -5.980000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pr-(Lactate)3 (aq) formula= Pr[CH3CH(OH)COO]3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 408.1201 g 2 species in reaction 3.000 Lactate- 1.000 Pr+++ -7.4000 -7.4000 -7.4000 -7.4000 -7.4000 -7.4000 -7.4000 -7.4000 * logK= -7.400000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pr-(Malate)2- formula= Pr(C4H4O5)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 405.0532 g 2 species in reaction 2.000 Malate-- 1.000 Pr+++ -9.4600 -9.4600 -9.4600 -9.4600 -9.4600 -9.4600 -9.4600 -9.4600 * logK= -9.460000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pr-(Malonate)2- formula= Pr[CH2(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 345.0008 g 2 species in reaction 2.000 Malonate-- 1.000 Pr+++ -7.6833 -7.8590 -8.0200 -8.1962 -8.3563 -8.5024 -8.6363 -8.7594 * logK= -8.020000 deltaH= -21.000000 kJ Pr-(Propionate)2+ formula= Pr(CH3CH2COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 287.0506 g 2 species in reaction 2.000 Propionate- 1.000 Pr+++ -4.2995 -4.4250 -4.5400 -4.6659 -4.7802 -4.8846 -4.9802 -5.0682 * logK= -4.540000 deltaH= -15.000000 kJ Pr-Acetate++ formula= Pr(CH3COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 199.9525 g 2 species in reaction 1.000 Acetate- 1.000 Pr+++ -2.5362 -2.5956 -2.6500 -2.7096 -2.7637 -2.8131 -2.8584 -2.9000 * logK= -2.650000 deltaH= -7.100000 kJ Pr-Benzoate++ formula= Pr(C6H5COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 262.0233 g 2 species in reaction 1.000 Pr+++ 1.000 Benzoate- -2.5769 -2.6464 -2.7100 -2.7796 -2.8429 -2.9007 -2.9536 -3.0023 * logK= -2.710000 deltaH= -8.300000 kJ Pr-Citrate (aq) formula= Pr[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 330.0093 g 2 species in reaction 1.000 Citrate--- 1.000 Pr+++ -9.5000 -9.5000 -9.5000 -9.5000 -9.5000 -9.5000 -9.5000 -9.5000 * logK= -9.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pr-DTPA-- formula= Pr(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 529.2183 g 2 species in reaction 1.000 Pr+++ 1.000 DTPA----- -24.7369 -24.5193 -24.3200 -24.1018 -23.9036 -23.7227 -23.5569 -23.4045 * logK= -24.320000 deltaH= 26.000000 kJ Pr-Formate++ formula= Pr[HCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 185.9257 g 2 species in reaction 1.000 Formate- 1.000 Pr+++ -1.7900 -1.7900 -1.7900 -1.7900 -1.7900 -1.7900 -1.7900 -1.7900 * logK= -1.790000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pr-Glutarate+ formula= Pr[C3H6(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 271.0080 g 2 species in reaction 1.000 Pr+++ 1.000 Glutarate-- -4.2195 -4.3450 -4.4600 -4.5859 -4.7002 -4.8046 -4.9002 -4.9882 * logK= -4.460000 deltaH= -15.000000 kJ Pr-Glycine++ formula= Pr[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 214.9671 g 2 species in reaction 1.000 Glycine- 1.000 Pr+++ -3.9500 -3.9500 -3.9500 -3.9500 -3.9500 -3.9500 -3.9500 -3.9500 * logK= -3.950000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pr-HEDTA (aq) formula= Pr(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 416.1457 g 2 species in reaction 1.000 Pr+++ 1.000 HEDTA--- -16.9188 -16.7263 -16.5500 -16.3570 -16.1816 -16.0216 -15.8750 -15.7401 * logK= -16.550000 deltaH= 23.000000 kJ Pr-iButyrate++ formula= Pr[(CH3)2CHCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 228.0061 g 2 species in reaction 1.000 iButyrate- 1.000 Pr+++ -2.5376 -2.6380 -2.7300 -2.8307 -2.9222 -3.0057 -3.0822 -3.1525 * logK= -2.730000 deltaH= -12.000000 kJ Pr-iPhthalate+ formula= Pr[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 305.0252 g 2 species in reaction 1.000 iPhthalate-- 1.000 Pr+++ -3.6316 -3.7403 -3.8400 -3.9491 -4.0482 -4.1387 -4.2215 -4.2977 * logK= -3.840000 deltaH= -13.000000 kJ Pr-Lactate++ formula= Pr[CH3CH(OH)COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 229.9787 g 2 species in reaction 1.000 Lactate- 1.000 Pr+++ -3.3000 -3.3000 -3.3000 -3.3000 -3.3000 -3.3000 -3.3000 -3.3000 * logK= -3.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pr-Malate+ formula= Pr(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 272.9806 g 2 species in reaction 1.000 Malate-- 1.000 Pr+++ -5.9400 -5.9400 -5.9400 -5.9400 -5.9400 -5.9400 -5.9400 -5.9400 * logK= -5.940000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pr-Malonate+ formula= Pr[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 242.9544 g 2 species in reaction 1.000 Malonate-- 1.000 Pr+++ -4.9595 -5.0850 -5.2000 -5.3259 -5.4402 -5.5446 -5.6402 -5.7282 * logK= -5.200000 deltaH= -15.000000 kJ Pr-Phthalate+ formula= Pr[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 305.0252 g 2 species in reaction 1.000 Phthalate-- 1.000 Pr+++ -4.8400 -4.8400 -4.8400 -4.8400 -4.8400 -4.8400 -4.8400 -4.8400 * logK= -4.840000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pr-Propionate++ formula= Pr(CH3CH2COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 213.9793 g 2 species in reaction 1.000 Propionate- 1.000 Pr+++ -2.6433 -2.7094 -2.7700 -2.8363 -2.8965 -2.9515 -3.0019 -3.0482 * logK= -2.770000 deltaH= -7.900000 kJ Pr-Succinate+ formula= Pr[(CH2)2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 256.9812 g 2 species in reaction 1.000 Pr+++ 1.000 Succinate-- -4.4576 -4.5580 -4.6500 -4.7507 -4.8422 -4.9257 -5.0022 -5.0725 * logK= -4.650000 deltaH= -12.000000 kJ Pr-Tartrate+ formula= Pr(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 288.9800 g 2 species in reaction 1.000 Tartrate-- 1.000 Pr+++ -5.3700 -5.3700 -5.3700 -5.3700 -5.3700 -5.3700 -5.3700 -5.3700 * logK= -5.370000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PrCl++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 176.3610 g 2 species in reaction 1.000 Cl- 1.000 Pr+++ -.5700 -.5700 -.5700 -.5700 -.5700 -.5700 -.5700 -.5700 * logK= -0.570000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PrCO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 200.9172 g 2 species in reaction 1.000 Pr+++ 1.000 CO3-- -7.4800 -7.4800 -7.4800 -7.4800 -7.4800 -7.4800 -7.4800 -7.4800 * logK= -7.480000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PrEDTA- formula= Pr(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 429.1214 g 2 species in reaction 1.000 EDTA---- 1.000 Pr+++ -19.0684 -18.9597 -18.8600 -18.7509 -18.6518 -18.5613 -18.4785 -18.4023 * logK= -18.860000 deltaH= 13.000000 kJ PrEGTA- formula= Pr(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 517.2274 g 2 species in reaction 1.000 EGTA---- 1.000 Pr+++ -18.7800 -18.7800 -18.7800 -18.7800 -18.7800 -18.7800 -18.7800 -18.7800 * logK= -18.780000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PrF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 159.9064 g 2 species in reaction 1.000 Pr+++ 1.000 F- -3.8255 -3.9427 -4.0500 -4.1675 -4.2742 -4.3716 -4.4609 -4.5430 * logK= -4.050000 deltaH= -14.000000 kJ PrH-(Malonate)2 (aq) formula= PrH[CH2(COO)2]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 346.0087 g 3 species in reaction 2.000 Malonate-- 1.000 H+ 1.000 Pr+++ -11.7154 -11.8743 -12.0200 -12.1794 -12.3243 -12.4565 -12.5776 -12.6890 * logK= -12.020000 deltaH= -19.000000 kJ PrH-DTPA- formula= PrH(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 530.2262 g 3 species in reaction 1.000 H+ 1.000 Pr+++ 1.000 DTPA----- -27.1300 -27.1300 -27.1300 -27.1300 -27.1300 -27.1300 -27.1300 -27.1300 * logK= -27.130000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PrH-Malonate++ formula= PrH[CH2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 243.9623 g 3 species in reaction 1.000 Malonate-- 1.000 H+ 1.000 Pr+++ -7.6029 -7.6692 -7.7300 -7.7965 -7.8570 -7.9122 -7.9627 -8.0092 * logK= -7.730000 deltaH= -7.930000 kJ PrH-Sal++ formula= PrH(OC6H4COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 278.0227 g 3 species in reaction 1.000 H+ 1.000 Sal-- 1.000 Pr+++ -16.7803 -16.4984 -16.2400 -15.9572 -15.7003 -15.4658 -15.2509 -15.0534 * logK= -16.240000 deltaH= 33.700000 kJ PrH-Succinate++ formula= PrH[(CH2)2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 257.9891 g 3 species in reaction 1.000 H+ 1.000 Pr+++ 1.000 Succinate-- -8.0000 -8.0000 -8.0000 -8.0000 -8.0000 -8.0000 -8.0000 -8.0000 * logK= -8.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PrH2-(Sal)2+ formula= PrH2(OC6H4COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 415.1374 g 3 species in reaction 2.000 H+ 2.000 Sal-- 1.000 Pr+++ -33.2491 -32.6859 -32.1700 -31.6052 -31.0921 -30.6239 -30.1948 -29.8003 * logK= -32.170000 deltaH= 67.300000 kJ PrH2-(Succinate)2+ formula= PrH2[(CH2)2(COO)2]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 375.0702 g 3 species in reaction 2.000 H+ 1.000 Pr+++ 2.000 Succinate-- -15.3500 -15.3500 -15.3500 -15.3500 -15.3500 -15.3500 -15.3500 -15.3500 * logK= -15.350000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PrHEDTA (aq) formula= PrH(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 430.1293 g 3 species in reaction 1.000 H+ 1.000 EDTA---- 1.000 Pr+++ -20.6700 -20.6700 -20.6700 -20.6700 -20.6700 -20.6700 -20.6700 -20.6700 * logK= -20.670000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PrNO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 202.9129 g 2 species in reaction 1.000 NO3- 1.000 Pr+++ -.8100 -.8100 -.8100 -.8100 -.8100 -.8100 -.8100 -.8100 * logK= -0.810000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PrNTA (aq) formula= Pr[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 329.0245 g 2 species in reaction 1.000 NTA--- 1.000 Pr+++ -12.8830 -12.8345 -12.7900 -12.7413 -12.6971 -12.6568 -12.6198 -12.5858 * logK= -12.790000 deltaH= 5.800000 kJ PrOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 157.9153 g 3 species in reaction -1.000 H+ 1.000 Pr+++ 1.000 H2O 8.0070 8.0070 8.0070 8.0070 8.0070 8.0070 8.0070 8.0070 * logK= 8.007000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PrOH-HEDTA- formula= PrOH(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 433.1530 g 4 species in reaction -1.000 H+ 1.000 Pr+++ 1.000 H2O 1.000 HEDTA--- -6.2400 -6.2400 -6.2400 -6.2400 -6.2400 -6.2400 -6.2400 -6.2400 * logK= -6.240000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PrOHNTA- formula= PrOH[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 346.0318 g 4 species in reaction 1.000 NTA--- -1.000 H+ 1.000 Pr+++ 1.000 H2O -4.5150 -4.5150 -4.5150 -4.5150 -4.5150 -4.5150 -4.5150 -4.5150 * logK= -4.515000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PrSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 236.9696 g 2 species in reaction 1.000 Pr+++ 1.000 SO4-- -3.3354 -3.4943 -3.6400 -3.7994 -3.9443 -4.0765 -4.1976 -4.3090 * logK= -3.640000 deltaH= -19.000000 kJ Pu(CO3)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 364.0184 g 2 species in reaction 1.000 Pu+++ 2.000 CO3-- -12.9000 -12.9000 -12.9000 -12.9000 -12.9000 -12.9000 -12.9000 -12.9000 * logK= -12.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pu(CO3)3--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 424.0276 g 2 species in reaction 1.000 Pu+++ 3.000 CO3-- -15.4000 -15.4000 -15.4000 -15.4000 -15.4000 -15.4000 -15.4000 -15.4000 * logK= -15.400000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pu(CO3)4---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 484.0368 g 2 species in reaction 1.000 Pu++++ 4.000 CO3-- -34.1000 -34.1000 -34.1000 -34.1000 -34.1000 -34.1000 -34.1000 -34.1000 * logK= -34.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pu(CO3)5------ charge= -6 ion size= 0.0 A b= 0.0000 mole wt.= 544.0460 g 2 species in reaction 1.000 Pu++++ 5.000 CO3-- -32.7000 -32.7000 -32.7000 -32.7000 -32.7000 -32.7000 -32.7000 -32.7000 * logK= -32.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pu(OH)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 278.0146 g 3 species in reaction 1.000 Pu++++ -2.000 H+ 2.000 H2O -.6000 -.6000 -.6000 -.6000 -.6000 -.6000 -.6000 -.6000 * logK= -0.600000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pu(OH)3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 295.0219 g 3 species in reaction 1.000 Pu++++ -3.000 H+ 3.000 H2O 2.3000 2.3000 2.3000 2.3000 2.3000 2.3000 2.3000 2.3000 * logK= 2.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pu(OH)4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 312.0292 g 3 species in reaction 1.000 Pu++++ -4.000 H+ 4.000 H2O 8.6000 8.6000 8.6000 8.6000 8.6000 8.6000 8.6000 8.6000 * logK= 8.600000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pu(SO4)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 436.1232 g 2 species in reaction 1.000 Pu++++ 2.000 SO4-- -7.7000 -7.7000 -7.7000 -7.7000 -7.7000 -7.7000 -7.7000 -7.7000 * logK= -7.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pu-DTPA-- formula= Pu(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 632.3103 g 2 species in reaction 1.000 Pu+++ 1.000 DTPA----- -24.5600 -24.5600 -24.5600 -24.5600 -24.5600 -24.5600 -24.5600 -24.5600 * logK= -24.560000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuCl++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 279.4530 g 2 species in reaction 1.000 Cl- 1.000 Pu+++ -.4600 -.4600 -.4600 -.4600 -.4600 -.4600 -.4600 -.4600 * logK= -0.460000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuCl+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 279.4530 g 2 species in reaction 1.000 Pu++++ 1.000 Cl- -2.0000 -2.0000 -2.0000 -2.0000 -2.0000 -2.0000 -2.0000 -2.0000 * logK= -2.000000 deltaH= 0.000000 kJ PuCO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 304.0092 g 2 species in reaction 1.000 Pu+++ 1.000 CO3-- -8.1000 -8.1000 -8.1000 -8.1000 -8.1000 -8.1000 -8.1000 -8.1000 * logK= -8.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuEDTA- formula= Pu(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 532.2134 g 2 species in reaction 1.000 Pu+++ 1.000 EDTA---- -18.6600 -18.6600 -18.6600 -18.6600 -18.6600 -18.6600 -18.6600 -18.6600 * logK= -18.660000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuF+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 262.9984 g 2 species in reaction 1.000 Pu++++ 1.000 F- -8.8000 -8.8000 -8.8000 -8.8000 -8.8000 -8.8000 -8.8000 -8.8000 * logK= -8.800000 deltaH= 0.000000 kJ PuF2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 281.9968 g 2 species in reaction 1.000 Pu++++ 2.000 F- -15.8000 -15.8000 -15.8000 -15.8000 -15.8000 -15.8000 -15.8000 -15.8000 * logK= -15.800000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuH2PO4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 340.9872 g 3 species in reaction 2.000 H+ 1.000 Pu+++ 1.000 PO4--- -22.0700 -22.0700 -22.0700 -22.0700 -22.0700 -22.0700 -22.0700 -22.0700 * logK= -22.070000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuHEDTA (aq) formula= PuH(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 533.2213 g 3 species in reaction 1.000 H+ 1.000 Pu+++ 1.000 EDTA---- -21.1900 -21.1900 -21.1900 -21.1900 -21.1900 -21.1900 -21.1900 -21.1900 * logK= -21.190000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuNO3+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 306.0049 g 2 species in reaction 1.000 Pu++++ 1.000 NO3- -2.4717 -2.5387 -2.6000 -2.6671 -2.7281 -2.7838 -2.8348 -2.8817 * logK= -2.600000 deltaH= -8.000000 kJ PuNTA (aq) formula= Pu[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 432.1165 g 2 species in reaction 1.000 NTA--- 1.000 Pu+++ -12.2000 -12.2000 -12.2000 -12.2000 -12.2000 -12.2000 -12.2000 -12.2000 * logK= -12.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuO2(CO3)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 396.0172 g 2 species in reaction 1.000 PuO2++ 2.000 CO3-- -15.0000 -15.0000 -15.0000 -15.0000 -15.0000 -15.0000 -15.0000 -15.0000 * logK= -15.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuO2(CO3)2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 396.0172 g 2 species in reaction 1.000 PuO2+ 2.000 CO3-- -6.5000 -6.5000 -6.5000 -6.5000 -6.5000 -6.5000 -6.5000 -6.5000 * logK= -6.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuO2(CO3)3---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 456.0264 g 2 species in reaction 1.000 PuO2++ 3.000 CO3-- -18.1093 -17.7913 -17.5000 -17.1811 -16.8914 -16.6270 -16.3847 -16.1620 * logK= -17.500000 deltaH= 38.000000 kJ PuO2(CO3)3----- charge= -5 ion size= 0.0 A b= 0.0000 mole wt.= 456.0264 g 2 species in reaction 1.000 PuO2+ 3.000 CO3-- -5.5000 -5.5000 -5.5000 -5.5000 -5.5000 -5.5000 -5.5000 -5.5000 * logK= -5.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuO2(OH)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 310.0134 g 3 species in reaction -2.000 H+ 1.000 PuO2++ 2.000 H2O 13.1900 13.1900 13.1900 13.1900 13.1900 13.1900 13.1900 13.1900 * logK= 13.190000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuO2Cl+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 311.4518 g 2 species in reaction 1.000 Cl- 1.000 PuO2++ -.2200 -.2200 -.2200 -.2200 -.2200 -.2200 -.2200 -.2200 * logK= -0.220000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuO2CO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 336.0080 g 2 species in reaction 1.000 PuO2++ 1.000 CO3-- -9.4000 -9.4000 -9.4000 -9.4000 -9.4000 -9.4000 -9.4000 -9.4000 * logK= -9.400000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuO2CO3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 336.0080 g 2 species in reaction 1.000 PuO2+ 1.000 CO3-- -5.1000 -5.1000 -5.1000 -5.1000 -5.1000 -5.1000 -5.1000 -5.1000 * logK= -5.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuO2F+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 294.9972 g 2 species in reaction 1.000 PuO2++ 1.000 F- -4.7000 -4.7000 -4.7000 -4.7000 -4.7000 -4.7000 -4.7000 -4.7000 * logK= -4.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuO2F2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 313.9956 g 2 species in reaction 1.000 PuO2++ 2.000 F- -7.2000 -7.2000 -7.2000 -7.2000 -7.2000 -7.2000 -7.2000 -7.2000 * logK= -7.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuO2H-HEDTA- formula= PrO2H(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 552.2444 g 3 species in reaction 1.000 PuO2+ 1.000 H+ 1.000 HEDTA--- -15.3100 -15.3100 -15.3100 -15.3100 -15.3100 -15.3100 -15.3100 -15.3100 * logK= -15.310000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuO2OH (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 293.0061 g 3 species in reaction 1.000 PuO2+ -1.000 H+ 1.000 H2O 9.7000 9.7000 9.7000 9.7000 9.7000 9.7000 9.7000 9.7000 * logK= 9.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuO2OH+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 293.0061 g 3 species in reaction -1.000 H+ 1.000 PuO2++ 1.000 H2O 5.2000 5.2000 5.2000 5.2000 5.2000 5.2000 5.2000 5.2000 * logK= 5.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuO2SO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 372.0604 g 2 species in reaction 1.000 PuO2++ 1.000 SO4-- -2.1595 -2.2850 -2.4000 -2.5259 -2.6402 -2.7446 -2.8402 -2.9282 * logK= -2.400000 deltaH= -15.000000 kJ PuOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 261.0073 g 3 species in reaction -1.000 H+ 1.000 Pu+++ 1.000 H2O 7.0000 7.0000 7.0000 7.0000 7.0000 7.0000 7.0000 7.0000 * logK= 7.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuOH+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 261.0073 g 3 species in reaction 1.000 Pu++++ -1.000 H+ 1.000 H2O -.6000 -.6000 -.6000 -.6000 -.6000 -.6000 -.6000 -.6000 * logK= -0.600000 deltaH= 0.000000 kJ PuSCN++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 302.0817 g 2 species in reaction 1.000 Pu+++ 1.000 SCN- -1.0000 -1.0000 -1.0000 -1.0000 -1.0000 -1.0000 -1.0000 -1.0000 * logK= -1.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 340.0616 g 2 species in reaction 1.000 Pu+++ 1.000 SO4-- -1.6435 -1.7773 -1.9000 -2.0343 -2.1563 -2.2676 -2.3696 -2.4634 * logK= -1.900000 deltaH= -16.000000 kJ PuSO4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 340.0616 g 2 species in reaction 1.000 Pu++++ 1.000 SO4-- -5.5000 -5.5000 -5.5000 -5.5000 -5.5000 -5.5000 -5.5000 -5.5000 * logK= -5.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Rb-Acetate (aq) formula= Rb(CH3COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 144.5144 g 2 species in reaction 1.000 Acetate- 1.000 Rb+ .1600 .1600 .1600 .1600 .1600 .1600 .1600 .1600 * logK= 0.160000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Rb-Citrate-- formula= Rb[C3H5O(COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 274.5712 g 2 species in reaction 1.000 Rb+ 1.000 Citrate--- -1.1300 -1.1300 -1.1300 -1.1300 -1.1300 -1.1300 -1.1300 -1.1300 * logK= -1.130000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Rb-Malate- formula= Rb(C4H4O5)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 217.5425 g 2 species in reaction 1.000 Rb+ 1.000 Malate-- -.4700 -.4700 -.4700 -.4700 -.4700 -.4700 -.4700 -.4700 * logK= -0.470000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Rb-Tartrate- formula= Rb(C4H4O6)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 233.5419 g 2 species in reaction 1.000 Tartrate-- 1.000 Rb+ -.7300 -.7300 -.7300 -.7300 -.7300 -.7300 -.7300 -.7300 * logK= -0.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C RbCl (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 120.9229 g 2 species in reaction 1.000 Cl- 1.000 Rb+ .3000 .3000 .3000 .3000 .3000 .3000 .3000 .3000 * logK= 0.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C RbClO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 184.9205 g 2 species in reaction 1.000 ClO4- 1.000 Rb+ -.1500 -.1500 -.1500 -.1500 -.1500 -.1500 -.1500 -.1500 * logK= -0.150000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C RbEDTA--- formula= Rb(C10H12N2O8)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 373.6833 g 2 species in reaction 1.000 Rb+ 1.000 EDTA---- -1.4500 -1.4500 -1.4500 -1.4500 -1.4500 -1.4500 -1.4500 -1.4500 * logK= -1.450000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C RbF (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 104.4683 g 2 species in reaction 1.000 Rb+ 1.000 F- .2200 .2200 .2200 .2200 .2200 .2200 .2200 .2200 * logK= 0.220000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C RbI (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 212.3743 g 2 species in reaction 1.000 Rb+ 1.000 I- -.0400 -.0400 -.0400 -.0400 -.0400 -.0400 -.0400 -.0400 * logK= -0.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C RbNO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 147.4748 g 2 species in reaction 1.000 NO3- 1.000 Rb+ .0800 .0800 .0800 .0800 .0800 .0800 .0800 .0800 * logK= 0.080000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C RbNTA-- formula= Rb[N(CH2COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 273.5864 g 2 species in reaction 1.000 NTA--- 1.000 Rb+ -1.0400 -1.0400 -1.0400 -1.0400 -1.0400 -1.0400 -1.0400 -1.0400 * logK= -1.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C RbSO4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 181.5315 g 2 species in reaction 1.000 Rb+ 1.000 SO4-- -.9400 -.9400 -.9400 -.9400 -.9400 -.9400 -.9400 -.9400 * logK= -0.940000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C S-- charge= -2 ion size= 5.0 A b= 0.0000 mole wt.= 32.0640 g 2 species in reaction -1.000 H+ 1.000 HS- 18.1921 17.7787 17.4000 16.9855 16.6088 16.2651 15.9502 15.6606 * logK= 17.400000 deltaH= -49.400000 kJ S-Ferrihydrite(s) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 106.8689 g 4 species in reaction 1.000 Fe+++ -3.000 H+ 1.000 Ts1-Fer 3.000 H2O 2.5000 2.5000 2.5000 2.5000 2.5000 2.5000 2.5000 2.5000 * logK= 2.500000 deltaH= 0.000000 kJ S-Hg(OH)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 234.6046 g 2 species in reaction 1.000 Ts1-Fer 1.000 Hg(OH)2 -2.3100 -2.3100 -2.3100 -2.3100 -2.3100 -2.3100 -2.3100 -2.3100 * logK= -2.310000 deltaH= 0.000000 kJ S-Zn(OH)2(s) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 99.3845 g 4 species in reaction 1.000 Zn++ -2.000 H+ 1.000 Ts1-Fer 2.000 H2O 11.7000 11.7000 11.7000 11.7000 11.7000 11.7000 11.7000 11.7000 * logK= 11.700000 deltaH= 0.000000 kJ S2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 64.1280 g 3 species in reaction -1.000 H+ 1.000 HS- 1.000 S 12.5268 12.1385 11.7828 11.3934 11.0397 10.7168 10.4210 10.1490 * logK= 11.782800 deltaH= -46.400000 kJ S2O5-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 144.1250 g 3 species in reaction 2.000 H+ -1.000 H2O 2.000 SO3-- -15.6904 -15.7841 -15.8700 -15.9640 -16.0494 -16.1273 -16.1987 -16.2644 * logK= -15.870000 deltaH= -11.200000 kJ S3-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 96.1920 g 3 species in reaction -1.000 H+ 1.000 HS- 2.000 S 11.4433 11.0902 10.7667 10.4126 10.0908 9.7972 9.5282 9.2808 * logK= 10.766700 deltaH= -42.200000 kJ S4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 128.2560 g 3 species in reaction -1.000 H+ 1.000 HS- 3.000 S 10.5909 10.2621 9.9608 9.6310 9.3314 9.0579 8.8074 8.5770 * logK= 9.960800 deltaH= -39.300000 kJ S5-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 160.3200 g 3 species in reaction -1.000 H+ 1.000 HS- 4.000 S 9.9680 9.6533 9.3651 9.0496 8.7629 8.5013 8.2616 8.0412 * logK= 9.365100 deltaH= -37.600000 kJ S6-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 192.3840 g 3 species in reaction -1.000 H+ 1.000 HS- 5.000 S 9.8810 9.8810 9.8810 9.8810 9.8810 9.8810 9.8810 9.8810 * logK= 9.881000 deltaH= 0.000000 kJ Sb(OH)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 155.7646 g 3 species in reaction 1.000 H+ 1.000 Sb(OH)3 -1.000 H2O -1.3800 -1.3800 -1.3800 -1.3800 -1.3800 -1.3800 -1.3800 -1.3800 * logK= -1.380000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sb(OH)2F (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 174.7630 g 4 species in reaction 1.000 H+ 1.000 Sb(OH)3 1.000 F- -1.000 H2O -6.1937 -6.1937 -6.1937 -6.1937 -6.1937 -6.1937 -6.1937 -6.1937 * logK= -6.193700 deltaH= 0.000000 kJ Sb(OH)4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 189.7792 g 3 species in reaction -1.000 H+ 1.000 Sb(OH)3 1.000 H2O 11.8200 11.8200 11.8200 11.8200 11.8200 11.8200 11.8200 11.8200 * logK= 11.820000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sb(OH)5 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 206.7865 g 3 species in reaction 1.000 Sb(OH)6- 1.000 H+ -1.000 H2O -2.8200 -2.8200 -2.8200 -2.8200 -2.8200 -2.8200 -2.8200 -2.8200 * logK= -2.820000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sb2S4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 371.7560 g 4 species in reaction 2.000 H+ 2.000 Sb(OH)3 4.000 HS- -6.000 H2O -54.5480 -51.8554 -49.3886 -46.6884 -44.2350 -41.9961 -39.9448 -38.0583 * logK= -49.388600 deltaH= 321.780100 kJ SbOF (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 156.7478 g 4 species in reaction 1.000 H+ 1.000 Sb(OH)3 1.000 F- -2.000 H2O -6.1864 -6.1864 -6.1864 -6.1864 -6.1864 -6.1864 -6.1864 -6.1864 * logK= -6.186400 deltaH= 0.000000 kJ Sc(NTA)2--- formula= Sc[N(CH2COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 421.1890 g 2 species in reaction 1.000 Sc+++ 2.000 NTA--- -26.0200 -26.0200 -26.0200 -26.0200 -26.0200 -26.0200 -26.0200 -26.0200 * logK= -26.020000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sc(OH)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 78.9706 g 3 species in reaction 1.000 Sc+++ -2.000 H+ 2.000 H2O 9.6940 9.6940 9.6940 9.6940 9.6940 9.6940 9.6940 9.6940 * logK= 9.694000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sc(OH)3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 95.9779 g 3 species in reaction 1.000 Sc+++ -3.000 H+ 3.000 H2O 18.0910 18.0910 18.0910 18.0910 18.0910 18.0910 18.0910 18.0910 * logK= 18.091000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sc(OH)4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 112.9852 g 3 species in reaction 1.000 Sc+++ -4.000 H+ 4.000 H2O 25.9880 25.9880 25.9880 25.9880 25.9880 25.9880 25.9880 25.9880 * logK= 25.988000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sc(SeO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 330.8712 g 2 species in reaction 1.000 Sc+++ 2.000 SeO4-- -3.7200 -3.7200 -3.7200 -3.7200 -3.7200 -3.7200 -3.7200 -3.7200 * logK= -3.720000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sc(SO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 237.0792 g 2 species in reaction 1.000 Sc+++ 2.000 SO4-- -4.7342 -5.1860 -5.6000 -6.0531 -6.4649 -6.8406 -7.1848 -7.5014 * logK= -5.600000 deltaH= -54.000000 kJ Sc-(Malonate)2- formula= Sc[CH2(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 249.0488 g 2 species in reaction 2.000 Malonate-- 1.000 Sc+++ -11.3431 -11.5607 -11.7600 -11.9782 -12.1764 -12.3573 -12.5231 -12.6755 * logK= -11.760000 deltaH= -26.000000 kJ Sc-(Malonate)3--- formula= Sc[CH2(COO)2]3--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 351.0952 g 2 species in reaction 3.000 Malonate-- 1.000 Sc+++ -13.7869 -14.0547 -14.3000 -14.5685 -14.8125 -15.0352 -15.2392 -15.4268 * logK= -14.300000 deltaH= -32.000000 kJ Sc-(Oxalate)2- formula= Sc[(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 220.9952 g 2 species in reaction 1.000 Sc+++ 2.000 Oxalate-- -13.2700 -13.2700 -13.2700 -13.2700 -13.2700 -13.2700 -13.2700 -13.2700 * logK= -13.270000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sc-Acetate++ formula= Sc(CH3COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 104.0005 g 2 species in reaction 1.000 Sc+++ 1.000 Acetate- -4.1200 -4.1200 -4.1200 -4.1200 -4.1200 -4.1200 -4.1200 -4.1200 * logK= -4.120000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sc-DTPA-- formula= Sc(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 433.2663 g 2 species in reaction 1.000 Sc+++ 1.000 DTPA----- -27.1200 -27.1200 -27.1200 -27.1200 -27.1200 -27.1200 -27.1200 -27.1200 * logK= -27.120000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sc-Glutarate+ formula= Sc[C3H6(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 175.0560 g 2 species in reaction 1.000 Sc+++ 1.000 Glutarate-- -6.1100 -6.1100 -6.1100 -6.1100 -6.1100 -6.1100 -6.1100 -6.1100 * logK= -6.110000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sc-HEDTA (aq) formula= Sc(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 320.1937 g 2 species in reaction 1.000 Sc+++ 1.000 HEDTA--- -19.2400 -19.2400 -19.2400 -19.2400 -19.2400 -19.2400 -19.2400 -19.2400 * logK= -19.240000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sc-Lactate++ formula= Sc[CH3CH(OH)COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 134.0267 g 2 species in reaction 1.000 Sc+++ 1.000 Lactate- -5.2000 -5.2000 -5.2000 -5.2000 -5.2000 -5.2000 -5.2000 -5.2000 * logK= -5.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sc-Malonate+ formula= Sc[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 147.0024 g 2 species in reaction 1.000 Malonate-- 1.000 Sc+++ -6.8755 -6.9927 -7.1000 -7.2175 -7.3242 -7.4216 -7.5109 -7.5930 * logK= -7.100000 deltaH= -14.000000 kJ Sc-Oxalate+ formula= Sc[(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 132.9756 g 2 species in reaction 1.000 Sc+++ 1.000 Oxalate-- -9.6800 -9.6800 -9.6800 -9.6800 -9.6800 -9.6800 -9.6800 -9.6800 * logK= -9.680000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sc-Propionate++ formula= Sc(CH3CH2COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 118.0273 g 2 species in reaction 1.000 Sc+++ 1.000 Propionate- -4.4200 -4.4200 -4.4200 -4.4200 -4.4200 -4.4200 -4.4200 -4.4200 * logK= -4.420000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sc-Tartrate+ formula= Sc(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 193.0280 g 2 species in reaction 1.000 Sc+++ 1.000 Tartrate-- -13.7900 -13.7900 -13.7900 -13.7900 -13.7900 -13.7900 -13.7900 -13.7900 * logK= -13.790000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sc2(OH)2++++ charge= 4 ion size= 0.0 A b= 0.0000 mole wt.= 123.9266 g 3 species in reaction 2.000 Sc+++ -2.000 H+ 2.000 H2O 6.9820 6.4664 5.9940 5.4769 5.0071 4.5784 4.1855 3.8243 * logK= 5.994000 deltaH= -61.620000 kJ ScBr++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 124.8600 g 2 species in reaction 1.000 Sc+++ 1.000 Br- -.6800 -.6800 -.6800 -.6800 -.6800 -.6800 -.6800 -.6800 * logK= -0.680000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ScBr2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 204.7640 g 2 species in reaction 1.000 Sc+++ 2.000 Br- -.9500 -.9500 -.9500 -.9500 -.9500 -.9500 -.9500 -.9500 * logK= -0.950000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ScCl++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 80.4090 g 2 species in reaction 1.000 Sc+++ 1.000 Cl- -.7900 -.7900 -.7900 -.7900 -.7900 -.7900 -.7900 -.7900 * logK= -0.790000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ScEDTA- formula= Sc(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 333.1694 g 2 species in reaction 1.000 Sc+++ 1.000 EDTA---- -25.6600 -25.6600 -25.6600 -25.6600 -25.6600 -25.6600 -25.6600 -25.6600 * logK= -25.660000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ScEGTA- formula= Sc(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 421.2754 g 2 species in reaction 1.000 Sc+++ 1.000 EGTA---- -20.7600 -20.7600 -20.7600 -20.7600 -20.7600 -20.7600 -20.7600 -20.7600 * logK= -20.760000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ScF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 63.9544 g 2 species in reaction 1.000 Sc+++ 1.000 F- -7.0640 -7.0723 -7.0800 -7.0884 -7.0960 -7.1030 -7.1093 -7.1152 * logK= -7.080000 deltaH= -1.000000 kJ ScF2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 82.9528 g 2 species in reaction 1.000 Sc+++ 2.000 F- -12.7998 -12.8417 -12.8800 -12.9220 -12.9601 -12.9949 -13.0267 -13.0561 * logK= -12.880000 deltaH= -5.000000 kJ ScF3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 101.9512 g 2 species in reaction 1.000 Sc+++ 3.000 F- -17.0312 -17.2237 -17.4000 -17.5930 -17.7684 -17.9284 -18.0750 -18.2099 * logK= -17.400000 deltaH= -23.000000 kJ ScF4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 120.9496 g 2 species in reaction 1.000 Sc+++ 4.000 F- -20.0435 -20.1773 -20.3000 -20.4343 -20.5563 -20.6676 -20.7696 -20.8634 * logK= -20.300000 deltaH= -16.000000 kJ ScHEDTA (aq) formula= ScH(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 334.1773 g 3 species in reaction 1.000 Sc+++ 1.000 H+ 1.000 EDTA---- -27.8800 -27.8800 -27.8800 -27.8800 -27.8800 -27.8800 -27.8800 -27.8800 * logK= -27.880000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ScNTA (aq) formula= Sc[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 233.0725 g 2 species in reaction 1.000 Sc+++ 1.000 NTA--- -14.6200 -14.6200 -14.6200 -14.6200 -14.6200 -14.6200 -14.6200 -14.6200 * logK= -14.620000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ScOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 61.9633 g 3 species in reaction 1.000 Sc+++ -1.000 H+ 1.000 H2O 5.3201 4.7862 4.2970 3.7615 3.2750 2.8310 2.4243 2.0502 * logK= 4.297000 deltaH= -63.810000 kJ ScOHEDTA-- formula= ScOH(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 350.1767 g 4 species in reaction 1.000 Sc+++ -1.000 H+ 1.000 EDTA---- 1.000 H2O -14.5730 -14.5730 -14.5730 -14.5730 -14.5730 -14.5730 -14.5730 -14.5730 * logK= -14.573000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ScOHNTA- formula= ScOH[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 250.0798 g 4 species in reaction 1.000 Sc+++ 1.000 NTA--- -1.000 H+ 1.000 H2O -8.0650 -8.0650 -8.0650 -8.0650 -8.0650 -8.0650 -8.0650 -8.0650 * logK= -8.065000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ScSCN++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 103.0377 g 2 species in reaction 1.000 Sc+++ 1.000 SCN- -1.0100 -1.0100 -1.0100 -1.0100 -1.0100 -1.0100 -1.0100 -1.0100 * logK= -1.010000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ScSeO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 187.9136 g 2 species in reaction 1.000 Sc+++ 1.000 SeO4-- -3.0383 -2.9713 -2.9100 -2.8429 -2.7819 -2.7262 -2.6752 -2.6283 * logK= -2.910000 deltaH= 8.000000 kJ ScSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 141.0176 g 2 species in reaction 1.000 Sc+++ 1.000 SO4-- -3.6829 -3.9423 -4.1800 -4.4401 -4.6765 -4.8922 -5.0898 -5.2715 * logK= -4.180000 deltaH= -31.000000 kJ Se-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 78.9600 g 2 species in reaction 1.000 HSe- -1.000 H+ 15.7715 15.3689 15.0000 14.5962 14.2294 13.8946 13.5879 13.3058 * logK= 15.000000 deltaH= -48.116000 kJ SeO3-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 126.9582 g 2 species in reaction -1.000 H+ 1.000 HSeO3- 8.4805 8.4385 8.4000 8.3579 8.3196 8.2847 8.2527 8.2232 * logK= 8.400000 deltaH= -5.020000 kJ SiF6-- charge= -2 ion size= 5.0 A b= 0.0000 mole wt.= 142.0759 g 4 species in reaction 4.000 H+ 1.000 H4SiO4 6.000 F- -4.000 H2O -31.2703 -30.7013 -30.1800 -29.6094 -29.0909 -28.6178 -28.1843 -27.7856 * logK= -30.180000 deltaH= 68.000000 kJ Sm(CO3)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 270.3784 g 2 species in reaction 1.000 Sm+++ 2.000 CO3-- -13.0900 -13.0900 -13.0900 -13.0900 -13.0900 -13.0900 -13.0900 -13.0900 * logK= -13.090000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sm(NTA)2--- formula= Sm[N(CH2COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 526.5930 g 2 species in reaction 2.000 NTA--- 1.000 Sm+++ -22.7188 -22.5263 -22.3500 -22.1570 -21.9816 -21.8216 -21.6750 -21.5401 * logK= -22.350000 deltaH= 23.000000 kJ Sm(SO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 342.4832 g 2 species in reaction 1.000 Sm+++ 2.000 SO4-- -4.6671 -4.8930 -5.1000 -5.3266 -5.5324 -5.7203 -5.8924 -6.0507 * logK= -5.100000 deltaH= -27.000000 kJ Sm-(Acetate)2+ formula= Sm(CH3COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 268.4490 g 2 species in reaction 2.000 Acetate- 1.000 Sm+++ -4.6076 -4.7080 -4.8000 -4.9007 -4.9922 -5.0757 -5.1522 -5.2225 * logK= -4.800000 deltaH= -12.000000 kJ Sm-(Benzoate)2+ formula= Sm(C6H5COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 392.5906 g 2 species in reaction 1.000 Sm+++ 2.000 Benzoate- -5.0000 -5.0000 -5.0000 -5.0000 -5.0000 -5.0000 -5.0000 -5.0000 * logK= -5.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sm-(Formate)2+ formula= Sm[HCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 240.3954 g 2 species in reaction 1.000 Sm+++ 2.000 Formate- -2.7300 -2.7300 -2.7300 -2.7300 -2.7300 -2.7300 -2.7300 -2.7300 * logK= -2.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sm-(iButyrate)2+ formula= Sm[(CH3)2CHCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 324.5562 g 2 species in reaction 2.000 iButyrate- 1.000 Sm+++ -4.3354 -4.4943 -4.6400 -4.7994 -4.9443 -5.0765 -5.1976 -5.3090 * logK= -4.640000 deltaH= -19.000000 kJ Sm-(Lactate)2+ formula= Sm[CH3CH(OH)COO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 328.5014 g 2 species in reaction 2.000 Lactate- 1.000 Sm+++ -6.2983 -6.2313 -6.1700 -6.1029 -6.0419 -5.9862 -5.9352 -5.8883 * logK= -6.170000 deltaH= 8.000000 kJ Sm-(Lactate)3 (aq) formula= Sm[CH3CH(OH)COO]3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 417.5721 g 2 species in reaction 3.000 Lactate- 1.000 Sm+++ -8.2433 -7.9336 -7.6500 -7.3395 -7.0574 -6.8000 -6.5641 -6.3472 * logK= -7.650000 deltaH= 37.000000 kJ Sm-(Malate)2- formula= Sm(C4H4O5)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 414.5052 g 2 species in reaction 1.000 Sm+++ 2.000 Malate-- -9.8800 -9.8800 -9.8800 -9.8800 -9.8800 -9.8800 -9.8800 -9.8800 * logK= -9.880000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sm-(Malonate)2- formula= Sm[CH2(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 354.4528 g 2 species in reaction 2.000 Malonate-- 1.000 Sm+++ -8.2233 -8.3990 -8.5600 -8.7362 -8.8963 -9.0424 -9.1763 -9.2994 * logK= -8.560000 deltaH= -21.000000 kJ Sm-(Propionate)2+ formula= Sm(CH3CH2COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 296.5026 g 2 species in reaction 2.000 Propionate- 1.000 Sm+++ -4.5876 -4.6880 -4.7800 -4.8807 -4.9722 -5.0557 -5.1322 -5.2025 * logK= -4.780000 deltaH= -12.000000 kJ Sm-Acetate++ formula= Sm(CH3COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 209.4045 g 2 species in reaction 1.000 Acetate- 1.000 Sm+++ -2.7406 -2.7925 -2.8400 -2.8920 -2.9393 -2.9824 -3.0220 -3.0583 * logK= -2.840000 deltaH= -6.200000 kJ Sm-Benzoate++ formula= Sm(C6H5COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 271.4753 g 2 species in reaction 1.000 Sm+++ 1.000 Benzoate- -2.7397 -2.8025 -2.8600 -2.9229 -2.9801 -3.0323 -3.0801 -3.1241 * logK= -2.860000 deltaH= -7.500000 kJ Sm-Citrate (aq) formula= Sm[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 339.4613 g 2 species in reaction 1.000 Sm+++ 1.000 Citrate--- -9.5900 -9.5900 -9.5900 -9.5900 -9.5900 -9.5900 -9.5900 -9.5900 * logK= -9.590000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sm-DTPA-- formula= Sm(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 538.6703 g 2 species in reaction 1.000 Sm+++ 1.000 DTPA----- -26.0991 -25.8230 -25.5700 -25.2931 -25.0415 -24.8119 -24.6015 -24.4080 * logK= -25.570000 deltaH= 33.000000 kJ Sm-Formate++ formula= Sm[HCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 195.3777 g 2 species in reaction 1.000 Sm+++ 1.000 Formate- -1.8800 -1.8800 -1.8800 -1.8800 -1.8800 -1.8800 -1.8800 -1.8800 * logK= -1.880000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sm-Glutarate+ formula= Sm[C3H6(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 280.4600 g 2 species in reaction 1.000 Sm+++ 1.000 Glutarate-- -4.3055 -4.4227 -4.5300 -4.6475 -4.7542 -4.8516 -4.9409 -5.0230 * logK= -4.530000 deltaH= -14.000000 kJ Sm-Glycine++ formula= Sm[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 224.4191 g 2 species in reaction 1.000 Glycine- 1.000 Sm+++ -4.1500 -4.1500 -4.1500 -4.1500 -4.1500 -4.1500 -4.1500 -4.1500 * logK= -4.150000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sm-HEDTA (aq) formula= Sm(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 425.5977 g 2 species in reaction 1.000 Sm+++ 1.000 HEDTA--- -17.7150 -17.4723 -17.2500 -17.0066 -16.7855 -16.5838 -16.3989 -16.2289 * logK= -17.250000 deltaH= 29.000000 kJ Sm-iButyrate++ formula= Sm[(CH3)2CHCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 237.4581 g 2 species in reaction 1.000 iButyrate- 1.000 Sm+++ -2.6836 -2.7757 -2.8600 -2.9523 -3.0362 -3.1127 -3.1828 -3.2473 * logK= -2.860000 deltaH= -11.000000 kJ Sm-iPhthalate+ formula= Sm[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 314.4772 g 2 species in reaction 1.000 iPhthalate-- 1.000 Sm+++ -3.9497 -4.0333 -4.1100 -4.1939 -4.2702 -4.3397 -4.4035 -4.4621 * logK= -4.110000 deltaH= -10.000000 kJ Sm-Lactate++ formula= Sm[CH3CH(OH)COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 239.4307 g 2 species in reaction 1.000 Lactate- 1.000 Sm+++ -3.6839 -3.6036 -3.5300 -3.4494 -3.3762 -3.3095 -3.2483 -3.1920 * logK= -3.530000 deltaH= 9.600000 kJ Sm-Malate+ formula= Sm(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 282.4326 g 2 species in reaction 1.000 Sm+++ 1.000 Malate-- -6.1800 -6.1800 -6.1800 -6.1800 -6.1800 -6.1800 -6.1800 -6.1800 * logK= -6.180000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sm-Malonate+ formula= Sm[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 252.4064 g 2 species in reaction 1.000 Malonate-- 1.000 Sm+++ -5.2876 -5.3880 -5.4800 -5.5807 -5.6722 -5.7557 -5.8322 -5.9025 * logK= -5.480000 deltaH= -12.000000 kJ Sm-Phthalate+ formula= Sm[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 314.4772 g 2 species in reaction 1.000 Phthalate-- 1.000 Sm+++ -4.9800 -4.9800 -4.9800 -4.9800 -4.9800 -4.9800 -4.9800 -4.9800 * logK= -4.980000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sm-Propionate++ formula= Sm(CH3CH2COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 223.4313 g 2 species in reaction 1.000 Propionate- 1.000 Sm+++ -2.7542 -2.8094 -2.8600 -2.9154 -2.9657 -3.0116 -3.0537 -3.0924 * logK= -2.860000 deltaH= -6.600000 kJ Sm-Succinate+ formula= Sm[(CH2)2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 266.4332 g 2 species in reaction 1.000 Sm+++ 1.000 Succinate-- -4.5816 -4.6903 -4.7900 -4.8991 -4.9982 -5.0887 -5.1715 -5.2477 * logK= -4.790000 deltaH= -13.000000 kJ Sm-Tartrate+ formula= Sm(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 298.4320 g 2 species in reaction 1.000 Tartrate-- 1.000 Sm+++ -5.5600 -5.5600 -5.5600 -5.5600 -5.5600 -5.5600 -5.5600 -5.5600 * logK= -5.560000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SmCO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 210.3692 g 2 species in reaction 1.000 Sm+++ 1.000 CO3-- -7.7100 -7.7100 -7.7100 -7.7100 -7.7100 -7.7100 -7.7100 -7.7100 * logK= -7.710000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SmEDTA- formula= Sm(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 438.5734 g 2 species in reaction 1.000 Sm+++ 1.000 EDTA---- -19.8445 -19.7273 -19.6200 -19.5025 -19.3958 -19.2984 -19.2091 -19.1270 * logK= -19.620000 deltaH= 14.000000 kJ SmEGTA- formula= Sm(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 526.6794 g 2 species in reaction 1.000 EGTA---- 1.000 Sm+++ -19.6600 -19.6600 -19.6600 -19.6600 -19.6600 -19.6600 -19.6600 -19.6600 * logK= -19.660000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SmF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 169.3584 g 2 species in reaction 1.000 Sm+++ 1.000 F- -4.0197 -4.1033 -4.1800 -4.2639 -4.3402 -4.4097 -4.4735 -4.5321 * logK= -4.180000 deltaH= -10.000000 kJ SmH-(Malonate)2 (aq) formula= SmH[CH2(COO)2]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 355.4607 g 3 species in reaction 2.000 Malonate-- 1.000 H+ 1.000 Sm+++ -12.3554 -12.5143 -12.6600 -12.8194 -12.9643 -13.0965 -13.2176 -13.3290 * logK= -12.660000 deltaH= -19.000000 kJ SmH-DTPA- formula= SmH(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 539.6782 g 3 species in reaction 1.000 H+ 1.000 Sm+++ 1.000 DTPA----- -28.2000 -28.2000 -28.2000 -28.2000 -28.2000 -28.2000 -28.2000 -28.2000 * logK= -28.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SmH-Malonate++ formula= SmH[CH2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 253.4143 g 3 species in reaction 1.000 Malonate-- 1.000 H+ 1.000 Sm+++ -7.7129 -7.7792 -7.8400 -7.9065 -7.9670 -8.0222 -8.0727 -8.1192 * logK= -7.840000 deltaH= -7.930000 kJ SmH-Sal++ formula= SmH(OC6H4COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 287.4747 g 3 species in reaction 1.000 H+ 1.000 Sm+++ 1.000 Sal-- -16.9996 -16.7075 -16.4400 -16.1471 -15.8810 -15.6382 -15.4157 -15.2111 * logK= -16.440000 deltaH= 34.900000 kJ SmH-Succinate++ formula= SmH[(CH2)2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 267.4411 g 3 species in reaction 1.000 H+ 1.000 Sm+++ 1.000 Succinate-- -8.2800 -8.2800 -8.2800 -8.2800 -8.2800 -8.2800 -8.2800 -8.2800 * logK= -8.280000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SmH2-(Sal)2+ formula= SmH2(OC6H4COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 424.5894 g 3 species in reaction 2.000 H+ 1.000 Sm+++ 2.000 Sal-- -33.3667 -32.7944 -32.2700 -31.6960 -31.1745 -30.6986 -30.2625 -29.8616 * logK= -32.270000 deltaH= 68.400000 kJ SmH2-(Succinate)2+ formula= SmH2[(CH2)2(COO)2]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 384.5222 g 3 species in reaction 2.000 H+ 1.000 Sm+++ 2.000 Succinate-- -15.7500 -15.7500 -15.7500 -15.7500 -15.7500 -15.7500 -15.7500 -15.7500 * logK= -15.750000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SmHEDTA (aq) formula= SmH(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 439.5813 g 3 species in reaction 1.000 H+ 1.000 Sm+++ 1.000 EDTA---- -21.3300 -21.3300 -21.3300 -21.3300 -21.3300 -21.3300 -21.3300 -21.3300 * logK= -21.330000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SmNO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 212.3649 g 2 species in reaction 1.000 NO3- 1.000 Sm+++ -.9100 -.9100 -.9100 -.9100 -.9100 -.9100 -.9100 -.9100 * logK= -0.910000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SmNTA (aq) formula= Sm[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 338.4765 g 2 species in reaction 1.000 NTA--- 1.000 Sm+++ -13.3538 -13.2944 -13.2400 -13.1804 -13.1263 -13.0769 -13.0316 -12.9900 * logK= -13.240000 deltaH= 7.100000 kJ SmOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 167.3673 g 3 species in reaction -1.000 H+ 1.000 Sm+++ 1.000 H2O 8.3612 8.0615 7.7870 7.4865 7.2135 6.9643 6.7360 6.5261 * logK= 7.787000 deltaH= -35.810000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SmOH-HEDTA- formula= SmOH(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 442.6050 g 4 species in reaction -1.000 H+ 1.000 Sm+++ 1.000 H2O 1.000 HEDTA--- -6.9500 -6.9500 -6.9500 -6.9500 -6.9500 -6.9500 -6.9500 -6.9500 * logK= -6.950000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SmOHNTA- formula= SmOH[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 355.4838 g 4 species in reaction 1.000 NTA--- -1.000 H+ 1.000 Sm+++ 1.000 H2O -5.8350 -5.8350 -5.8350 -5.8350 -5.8350 -5.8350 -5.8350 -5.8350 * logK= -5.835000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SmSCN++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 208.4417 g 2 species in reaction 1.000 Sm+++ 1.000 SCN- -.9000 -.9000 -.9000 -.9000 -.9000 -.9000 -.9000 -.9000 * logK= -0.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SmSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 246.4216 g 2 species in reaction 1.000 Sm+++ 1.000 SO4-- -3.3493 -3.5167 -3.6700 -3.8378 -3.9903 -4.1295 -4.2570 -4.3742 * logK= -3.670000 deltaH= -20.000000 kJ Sn(OH)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 169.7119 g 3 species in reaction 1.000 Sn(OH)2 -1.000 H+ 1.000 H2O 9.4970 9.4970 9.4970 9.4970 9.4970 9.4970 9.4970 9.4970 * logK= 9.497000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sn(SCN)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 234.8534 g 4 species in reaction 1.000 Sn(OH)2 2.000 H+ 2.000 SCN- -2.000 H2O -8.9000 -8.9000 -8.9000 -8.9000 -8.9000 -8.9000 -8.9000 -8.9000 * logK= -8.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sn++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 118.6900 g 3 species in reaction 1.000 Sn(OH)2 2.000 H+ -2.000 H2O -7.0940 -7.0940 -7.0940 -7.0940 -7.0940 -7.0940 -7.0940 -7.0940 * logK= -7.094000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sn++++ charge= 4 ion size= 0.0 A b= 0.0000 mole wt.= 118.6900 g 3 species in reaction 6.000 H+ 1.000 Sn(OH)6-- -6.000 H2O -21.2194 -21.2194 -21.2194 -21.2194 -21.2194 -21.2194 -21.2194 -21.2194 * logK= -21.219400 deltaH= 0.000000 kJ Sn-(Acetate)2 (aq) formula= Sn(CH3COO)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 236.7790 g 4 species in reaction 1.000 Sn(OH)2 2.000 Acetate- 2.000 H+ -2.000 H2O -12.3200 -12.3200 -12.3200 -12.3200 -12.3200 -12.3200 -12.3200 -12.3200 * logK= -12.320000 deltaH= 0.000000 kJ Sn-(Acetate)3- formula= Sn(CH3COO)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 295.8235 g 4 species in reaction 1.000 Sn(OH)2 3.000 Acetate- 2.000 H+ -2.000 H2O -13.5500 -13.5500 -13.5500 -13.5500 -13.5500 -13.5500 -13.5500 -13.5500 * logK= -13.550000 deltaH= 0.000000 kJ Sn-(Tartrate)2-- formula= Sn(C4H4O6)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 432.8492 g 4 species in reaction 1.000 Sn(OH)2 2.000 Tartrate-- 2.000 H+ -1.000 H2O -17.8600 -17.8600 -17.8600 -17.8600 -17.8600 -17.8600 -17.8600 -17.8600 * logK= -17.860000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sn-Acetate+ formula= Sn(CH3COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 177.7345 g 4 species in reaction 1.000 Sn(OH)2 1.000 Acetate- 2.000 H+ -2.000 H2O -10.0213 -10.0213 -10.0213 -10.0213 -10.0213 -10.0213 -10.0213 -10.0213 * logK= -10.021300 deltaH= 0.000000 kJ Sn-Tartrate (aq) formula= Sn(C4H4O6) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 266.7620 g 4 species in reaction 1.000 Sn(OH)2 1.000 Tartrate-- 2.000 H+ -2.000 H2O -13.1600 -13.1600 -13.1600 -13.1600 -13.1600 -13.1600 -13.1600 -13.1600 * logK= -13.160000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sn2(OH)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 271.3946 g 3 species in reaction 2.000 Sn(OH)2 2.000 H+ -2.000 H2O -9.3940 -9.3940 -9.3940 -9.3940 -9.3940 -9.3940 -9.3940 -9.3940 * logK= -9.394000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sn3(OH)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 424.0992 g 3 species in reaction 3.000 Sn(OH)2 2.000 H+ -2.000 H2O -14.4140 -14.4140 -14.4140 -14.4140 -14.4140 -14.4140 -14.4140 -14.4140 * logK= -14.414000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SnBr+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 198.5940 g 4 species in reaction 1.000 Sn(OH)2 1.000 Br- 2.000 H+ -2.000 H2O -8.2500 -8.2500 -8.2500 -8.2500 -8.2500 -8.2500 -8.2500 -8.2500 * logK= -8.250000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SnBr2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 278.4980 g 4 species in reaction 1.000 Sn(OH)2 2.000 Br- 2.000 H+ -2.000 H2O -8.7900 -8.7900 -8.7900 -8.7900 -8.7900 -8.7900 -8.7900 -8.7900 * logK= -8.790000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SnCl+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 154.1430 g 4 species in reaction 1.000 Sn(OH)2 1.000 Cl- 2.000 H+ -2.000 H2O -8.7300 -8.7300 -8.7300 -8.7300 -8.7300 -8.7300 -8.7300 -8.7300 * logK= -8.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SnCl2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 189.5960 g 4 species in reaction 1.000 Sn(OH)2 2.000 Cl- 2.000 H+ -2.000 H2O -9.4900 -9.4900 -9.4900 -9.4900 -9.4900 -9.4900 -9.4900 -9.4900 * logK= -9.490000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SnEDTA-- formula= Sn(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 406.9034 g 4 species in reaction 1.000 Sn(OH)2 2.000 H+ 1.000 EDTA---- -2.000 H2O -27.0200 -27.0200 -27.0200 -27.0200 -27.0200 -27.0200 -27.0200 -27.0200 * logK= -27.020000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SnF+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 137.6884 g 4 species in reaction 1.000 Sn(OH)2 2.000 H+ -2.000 H2O 1.000 F- -11.5800 -11.5800 -11.5800 -11.5800 -11.5800 -11.5800 -11.5800 -11.5800 * logK= -11.580000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SnF2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 156.6868 g 4 species in reaction 1.000 Sn(OH)2 2.000 H+ -2.000 H2O 2.000 F- -14.4800 -14.4800 -14.4800 -14.4800 -14.4800 -14.4800 -14.4800 -14.4800 * logK= -14.480000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SnF3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 175.6852 g 4 species in reaction 1.000 Sn(OH)2 2.000 H+ -2.000 H2O 3.000 F- -17.2060 -17.2060 -17.2060 -17.2060 -17.2060 -17.2060 -17.2060 -17.2060 * logK= -17.206000 deltaH= 0.000000 kJ SnF6-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 232.6804 g 4 species in reaction 6.000 H+ 1.000 Sn(OH)6-- -6.000 H2O 6.000 F- -33.5844 -33.5844 -33.5844 -33.5844 -33.5844 -33.5844 -33.5844 -33.5844 * logK= -33.584400 deltaH= 0.000000 kJ SnFe(CN)6- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 330.6432 g 5 species in reaction 1.000 Sn(OH)2 1.000 Fe+++ 2.000 H+ -2.000 H2O 6.000 CN- -53.5400 -53.5400 -53.5400 -53.5400 -53.5400 -53.5400 -53.5400 -53.5400 * logK= -53.540000 deltaH= 0.000000 kJ SnH2EDTA (aq) formula= SnH2(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 408.9192 g 4 species in reaction 1.000 Sn(OH)2 4.000 H+ 1.000 EDTA---- -2.000 H2O -31.6200 -31.6200 -31.6200 -31.6200 -31.6200 -31.6200 -31.6200 -31.6200 * logK= -31.620000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SnHEDTA- formula= SnH(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 407.9113 g 4 species in reaction 1.000 Sn(OH)2 3.000 H+ 1.000 EDTA---- -2.000 H2O -29.9200 -29.9200 -29.9200 -29.9200 -29.9200 -29.9200 -29.9200 -29.9200 * logK= -29.920000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SnNO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 180.6949 g 4 species in reaction 1.000 Sn(OH)2 2.000 H+ 1.000 NO3- -2.000 H2O -7.9400 -7.9400 -7.9400 -7.9400 -7.9400 -7.9400 -7.9400 -7.9400 * logK= -7.940000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SnO3-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 166.6882 g 2 species in reaction 1.000 Sn(OH)6-- -3.000 H2O 2.2099 2.2099 2.2099 2.2099 2.2099 2.2099 2.2099 2.2099 * logK= 2.209900 deltaH= 0.000000 kJ SnOH+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 135.6973 g 3 species in reaction 1.000 Sn(OH)2 1.000 H+ -1.000 H2O -3.6970 -3.6970 -3.6970 -3.6970 -3.6970 -3.6970 -3.6970 -3.6970 * logK= -3.697000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SnSCN+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 176.7717 g 4 species in reaction 1.000 Sn(OH)2 2.000 H+ 1.000 SCN- -2.000 H2O -8.3300 -8.3300 -8.3300 -8.3300 -8.3300 -8.3300 -8.3300 -8.3300 * logK= -8.330000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sr-(Lactate)2 (aq) formula= Sr[CH3CH(OH)COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 265.7614 g 2 species in reaction 2.000 Lactate- 1.000 Sr++ -1.4000 -1.4000 -1.4000 -1.4000 -1.4000 -1.4000 -1.4000 -1.4000 * logK= -1.400000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sr-Acetate+ formula= Sr(CH3COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 146.6645 g 2 species in reaction 1.000 Acetate- 1.000 Sr++ -1.1200 -1.1200 -1.1200 -1.1200 -1.1200 -1.1200 -1.1200 -1.1200 * logK= -1.120000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sr-Butyrate+ formula= Sr[CH3CH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 174.7181 g 2 species in reaction 1.000 Sr++ 1.000 Butyrate- -.7900 -.7900 -.7900 -.7900 -.7900 -.7900 -.7900 -.7900 * logK= -0.790000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sr-Citrate- formula= Sr[C3H5O(COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 276.7213 g 2 species in reaction 1.000 Citrate--- 1.000 Sr++ -4.4300 -4.4300 -4.4300 -4.4300 -4.4300 -4.4300 -4.4300 -4.4300 * logK= -4.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sr-DTPA--- formula= Sr(C14H18N3O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 475.9303 g 2 species in reaction 1.000 Sr++ 1.000 DTPA----- -12.4050 -12.1623 -11.9400 -11.6966 -11.4755 -11.2738 -11.0889 -10.9189 * logK= -11.940000 deltaH= 29.000000 kJ Sr-Formate+ formula= Sr[HCOO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 132.6377 g 2 species in reaction 1.000 Sr++ 1.000 Formate- -1.3259 -1.3593 -1.3900 -1.4236 -1.4541 -1.4819 -1.5074 -1.5308 * logK= -1.390000 deltaH= -4.000000 kJ Sr-Glutamate (aq) formula= Sr(C5H7NO4) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 232.7346 g 2 species in reaction 1.000 Glutamate-- 1.000 Sr++ -2.2400 -2.2400 -2.2400 -2.2400 -2.2400 -2.2400 -2.2400 -2.2400 * logK= -2.240000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sr-Glycine+ formula= Sr[NH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 161.6791 g 2 species in reaction 1.000 Glycine- 1.000 Sr++ -.9100 -.9100 -.9100 -.9100 -.9100 -.9100 -.9100 -.9100 * logK= -0.910000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sr-HEDTA- formula= Sr(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 362.8577 g 2 species in reaction 1.000 Sr++ 1.000 HEDTA--- -8.4267 -8.2510 -8.0900 -7.9138 -7.7537 -7.6076 -7.4737 -7.3506 * logK= -8.090000 deltaH= 21.000000 kJ Sr-Lactate+ formula= Sr[CH3CH(OH)COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 176.6907 g 2 species in reaction 1.000 Lactate- 1.000 Sr++ -.9700 -.9700 -.9700 -.9700 -.9700 -.9700 -.9700 -.9700 * logK= -0.970000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sr-Malate (aq) formula= Sr(C4H4O5) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 219.6926 g 2 species in reaction 1.000 Malate-- 1.000 Sr++ -2.3964 -2.3931 -2.3900 -2.3866 -2.3836 -2.3808 -2.3783 -2.3759 * logK= -2.390000 deltaH= 0.400000 kJ Sr-Malonate (aq) formula= Sr[CH2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 189.6664 g 2 species in reaction 1.000 Malonate-- 1.000 Sr++ -2.2100 -2.2100 -2.2100 -2.2100 -2.2100 -2.2100 -2.2100 -2.2100 * logK= -2.210000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sr-Oxalate (aq) formula= Sr[(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 175.6396 g 2 species in reaction 1.000 Sr++ 1.000 Oxalate-- -2.5400 -2.5400 -2.5400 -2.5400 -2.5400 -2.5400 -2.5400 -2.5400 * logK= -2.540000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sr-Phthalate (aq) formula= Sr[C6H4(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 251.7372 g 2 species in reaction 1.000 Phthalate-- 1.000 Sr++ -2.3800 -2.3800 -2.3800 -2.3800 -2.3800 -2.3800 -2.3800 -2.3800 * logK= -2.380000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sr-Propionate+ formula= Sr(CH3CH2COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 160.6913 g 2 species in reaction 1.000 Propionate- 1.000 Sr++ -.8600 -.8600 -.8600 -.8600 -.8600 -.8600 -.8600 -.8600 * logK= -0.860000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sr-Succinate (aq) formula= Sr[(CH2)2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 203.6932 g 2 species in reaction 1.000 Sr++ 1.000 Succinate-- -2.1300 -2.1300 -2.1300 -2.1300 -2.1300 -2.1300 -2.1300 -2.1300 * logK= -2.130000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sr-Tartrate (aq) formula= Sr(C4H4O6) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 235.6920 g 2 species in reaction 1.000 Tartrate-- 1.000 Sr++ -2.5500 -2.5500 -2.5500 -2.5500 -2.5500 -2.5500 -2.5500 -2.5500 * logK= -2.550000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SrCl+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 123.0730 g 2 species in reaction 1.000 Cl- 1.000 Sr++ -.0617 -.1287 -.1900 -.2571 -.3181 -.3738 -.4248 -.4717 * logK= -0.190000 deltaH= -8.000000 kJ SrCO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 147.6292 g 2 species in reaction 1.000 Sr++ 1.000 CO3-- -2.4733 -2.6490 -2.8100 -2.9862 -3.1463 -3.2924 -3.4263 -3.5494 * logK= -2.810000 deltaH= -21.000000 kJ SrEDTA-- formula= Sr(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 375.8334 g 2 species in reaction 1.000 Sr++ 1.000 EDTA---- -10.7026 -10.5603 -10.4300 -10.2873 -10.1577 -10.0394 -9.9311 -9.8314 * logK= -10.430000 deltaH= 17.000000 kJ SrEGTA-- formula= Sr(C14H20N2O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 463.9394 g 2 species in reaction 1.000 EGTA---- 1.000 Sr++ -10.5308 -10.3217 -10.1300 -9.9202 -9.7296 -9.5557 -9.3963 -9.2497 * logK= -10.130000 deltaH= 25.000000 kJ SrF+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 106.6184 g 2 species in reaction 1.000 Sr++ 1.000 F- -.3035 -.4373 -.5600 -.6943 -.8163 -.9276 -1.0296 -1.1234 * logK= -0.560000 deltaH= -16.000000 kJ SrFe(CN)6- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 299.5732 g 3 species in reaction 1.000 Fe+++ 1.000 Sr++ 6.000 CN- -51.1319 -48.6885 -46.4500 -43.9997 -41.7734 -39.7417 -37.8802 -36.1683 * logK= -46.450000 deltaH= 292.000000 kJ SrFe(CN)6-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 299.5732 g 3 species in reaction 1.000 Fe++ 1.000 Sr++ 6.000 CN- -44.7119 -41.7832 -39.1000 -36.1630 -33.4944 -31.0592 -28.8279 -26.7761 * logK= -39.100000 deltaH= 350.000000 kJ SrH-Citrate (aq) formula= SrH[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 277.7292 g 3 species in reaction 1.000 H+ 1.000 Citrate--- 1.000 Sr++ -8.9800 -8.9800 -8.9800 -8.9800 -8.9800 -8.9800 -8.9800 -8.9800 * logK= -8.980000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SrH-DTPA-- formula= SrH(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 476.9382 g 3 species in reaction 1.000 H+ 1.000 Sr++ 1.000 DTPA----- -17.9800 -17.9800 -17.9800 -17.9800 -17.9800 -17.9800 -17.9800 -17.9800 * logK= -17.980000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SrH-Malate+ formula= SrH(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 220.7005 g 3 species in reaction 1.000 H+ 1.000 Malate-- 1.000 Sr++ -6.3300 -6.3300 -6.3300 -6.3300 -6.3300 -6.3300 -6.3300 -6.3300 * logK= -6.330000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SrH-Malonate+ formula= SrH[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 190.6743 g 3 species in reaction 1.000 Malonate-- 1.000 H+ 1.000 Sr++ -6.5400 -6.5400 -6.5400 -6.5400 -6.5400 -6.5400 -6.5400 -6.5400 * logK= -6.540000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SrH-Succinate+ formula= SrH[(CH2)2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 204.7011 g 3 species in reaction 1.000 H+ 1.000 Sr++ 1.000 Succinate-- -6.6200 -6.6200 -6.6200 -6.6200 -6.6200 -6.6200 -6.6200 -6.6200 * logK= -6.620000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SrH-Tartrate+ formula= SrH(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 236.6999 g 3 species in reaction 1.000 Tartrate-- 1.000 H+ 1.000 Sr++ -5.9000 -5.9000 -5.9000 -5.9000 -5.9000 -5.9000 -5.9000 -5.9000 * logK= -5.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SrH2-Citrate+ formula= SrH2[C3H5O(COO)3]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 278.7371 g 3 species in reaction 2.000 H+ 1.000 Citrate--- 1.000 Sr++ -12.4900 -12.4900 -12.4900 -12.4900 -12.4900 -12.4900 -12.4900 -12.4900 * logK= -12.490000 deltaH= 0.000000 kJ SrH2BO3+ charge= 1 ion size= 2.5 A b= 0.0000 mole wt.= 148.4440 g 3 species in reaction 1.000 H3BO3 -1.000 H+ 1.000 Sr++ 7.9626 7.8203 7.6900 7.5473 7.4177 7.2994 7.1911 7.0914 * logK= 7.690000 deltaH= -17.000000 kJ SrH2PO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 184.6072 g 3 species in reaction 2.000 H+ 1.000 PO4--- 1.000 Sr++ -20.4000 -20.4000 -20.4000 -20.4000 -20.4000 -20.4000 -20.4000 -20.4000 * logK= -20.400000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SrHCO3+ charge= 1 ion size= 6.0 A b= 0.0000 mole wt.= 148.6371 g 3 species in reaction 1.000 H+ 1.000 Sr++ 1.000 CO3-- -11.3722 -11.4593 -11.5390 -11.6263 -11.7056 -11.7779 -11.8442 -11.9052 * logK= -11.539000 deltaH= -10.400000 kJ SrHEDTA- formula= SrH(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 376.8413 g 3 species in reaction 1.000 H+ 1.000 Sr++ 1.000 EDTA---- -14.7900 -14.7900 -14.7900 -14.7900 -14.7900 -14.7900 -14.7900 -14.7900 * logK= -14.790000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SrHEGTA- formula= SrH(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 464.9473 g 3 species in reaction 1.000 EGTA---- 1.000 H+ 1.000 Sr++ -15.8900 -15.8900 -15.8900 -15.8900 -15.8900 -15.8900 -15.8900 -15.8900 * logK= -15.890000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SrHPO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 183.5993 g 3 species in reaction 1.000 H+ 1.000 PO4--- 1.000 Sr++ -14.7400 -14.7400 -14.7400 -14.7400 -14.7400 -14.7400 -14.7400 -14.7400 * logK= -14.740000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SrNH3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 104.6504 g 3 species in reaction -1.000 H+ 1.000 Sr++ 1.000 NH4+ 9.2400 9.2400 9.2400 9.2400 9.2400 9.2400 9.2400 9.2400 * logK= 9.240000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SrNO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 149.6249 g 2 species in reaction 1.000 NO3- 1.000 Sr++ -.7603 -.6767 -.6000 -.5161 -.4398 -.3703 -.3065 -.2479 * logK= -0.600000 deltaH= 10.000000 kJ SrNTA- formula= Sr[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 275.7365 g 2 species in reaction 1.000 NTA--- 1.000 Sr++ -6.3053 -6.2869 -6.2700 -6.2515 -6.2348 -6.2195 -6.2054 -6.1925 * logK= -6.270000 deltaH= 2.200000 kJ SrOH+ charge= 1 ion size= 5.0 A b= 0.0000 mole wt.= 104.6273 g 3 species in reaction -1.000 H+ 1.000 Sr++ 1.000 H2O 14.1520 13.6432 13.1770 12.6667 12.2031 11.7800 11.3923 11.0358 * logK= 13.177000 deltaH= -60.810000 kJ SrS2O3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 199.7462 g 2 species in reaction 1.000 S2O3-- 1.000 Sr++ -2.0400 -2.0400 -2.0400 -2.0400 -2.0400 -2.0400 -2.0400 -2.0400 * logK= -2.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SrSO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 183.6816 g 2 species in reaction 1.000 Sr++ 1.000 SO4-- -2.1717 -2.2387 -2.3000 -2.3671 -2.4281 -2.4838 -2.5348 -2.5817 * logK= -2.300000 deltaH= -8.000000 kJ Tb(CO3)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 278.9434 g 2 species in reaction 1.000 Tb+++ 2.000 CO3-- -13.3400 -13.3400 -13.3400 -13.3400 -13.3400 -13.3400 -13.3400 -13.3400 * logK= -13.340000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tb(NTA)2--- formula= Tb[N(CH2COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 535.1580 g 2 species in reaction 2.000 NTA--- 1.000 Tb+++ -23.2548 -23.0540 -22.8700 -22.6686 -22.4856 -22.3186 -22.1656 -22.0249 * logK= -22.870000 deltaH= 24.000000 kJ Tb(SO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 351.0482 g 2 species in reaction 1.000 Tb+++ 2.000 SO4-- -4.5869 -4.8547 -5.1000 -5.3685 -5.6125 -5.8352 -6.0392 -6.2268 * logK= -5.100000 deltaH= -32.000000 kJ Tb-(Acetate)2+ formula= Tb(CH3COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 277.0140 g 2 species in reaction 2.000 Acetate- 1.000 Tb+++ -4.3000 -4.3000 -4.3000 -4.3000 -4.3000 -4.3000 -4.3000 -4.3000 * logK= -4.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tb-(Acetate)3 (aq) formula= Tb(CH3COO)3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 336.0585 g 2 species in reaction 3.000 Acetate- 1.000 Tb+++ -5.6700 -5.6700 -5.6700 -5.6700 -5.6700 -5.6700 -5.6700 -5.6700 * logK= -5.670000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tb-(Benzoate)2+ formula= Tb(C6H5COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 401.1556 g 2 species in reaction 1.000 Tb+++ 2.000 Benzoate- -4.7300 -4.7300 -4.7300 -4.7300 -4.7300 -4.7300 -4.7300 -4.7300 * logK= -4.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tb-(Formate)2+ formula= Tb[HCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 248.9604 g 2 species in reaction 2.000 Formate- 1.000 Tb+++ -2.8200 -2.8200 -2.8200 -2.8200 -2.8200 -2.8200 -2.8200 -2.8200 * logK= -2.820000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tb-(iButyrate)2+ formula= Tb[(CH3)2CHCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 333.1212 g 2 species in reaction 2.000 iButyrate- 1.000 Tb+++ -3.7952 -3.9960 -4.1800 -4.3814 -4.5644 -4.7314 -4.8844 -5.0251 * logK= -4.180000 deltaH= -24.000000 kJ Tb-(Lactate)2+ formula= Tb[CH3CH(OH)COO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 337.0664 g 2 species in reaction 2.000 Lactate- 1.000 Tb+++ -6.2900 -6.2900 -6.2900 -6.2900 -6.2900 -6.2900 -6.2900 -6.2900 * logK= -6.290000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tb-(Lactate)3 (aq) formula= Tb[CH3CH(OH)COO]3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 426.1371 g 2 species in reaction 3.000 Lactate- 1.000 Tb+++ -7.6600 -7.6600 -7.6600 -7.6600 -7.6600 -7.6600 -7.6600 -7.6600 * logK= -7.660000 deltaH= 0.000000 kJ Tb-(Malate)2- formula= Tb(C4H4O5)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 423.0702 g 2 species in reaction 2.000 Malate-- 1.000 Tb+++ -9.7500 -9.7500 -9.7500 -9.7500 -9.7500 -9.7500 -9.7500 -9.7500 * logK= -9.750000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tb-(Malonate)2- formula= Tb[CH2(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 363.0178 g 2 species in reaction 2.000 Malonate-- 1.000 Tb+++ -8.5173 -8.7013 -8.8700 -9.0546 -9.2224 -9.3754 -9.5157 -9.6446 * logK= -8.870000 deltaH= -22.000000 kJ Tb-(Oxalate)2- formula= Tb[(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 334.9642 g 2 species in reaction 1.000 Tb+++ 2.000 Oxalate-- -10.9700 -10.9700 -10.9700 -10.9700 -10.9700 -10.9700 -10.9700 -10.9700 * logK= -10.970000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tb-(Propionate)2+ formula= Tb(CH3CH2COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 305.0676 g 2 species in reaction 2.000 Propionate- 1.000 Tb+++ -4.4295 -4.5550 -4.6700 -4.7959 -4.9102 -5.0146 -5.1102 -5.1982 * logK= -4.670000 deltaH= -15.000000 kJ Tb-Acetate++ formula= Tb(CH3COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 217.9695 g 2 species in reaction 1.000 Acetate- 1.000 Tb+++ -2.5500 -2.5500 -2.5500 -2.5500 -2.5500 -2.5500 -2.5500 -2.5500 * logK= -2.550000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tb-Benzoate++ formula= Tb(C6H5COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 280.0403 g 2 species in reaction 1.000 Tb+++ 1.000 Benzoate- -2.4525 -2.5295 -2.6000 -2.6772 -2.7473 -2.8114 -2.8700 -2.9239 * logK= -2.600000 deltaH= -9.200000 kJ Tb-Citrate (aq) formula= Tb[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 348.0263 g 2 species in reaction 1.000 Citrate--- 1.000 Tb+++ -9.3000 -9.3000 -9.3000 -9.3000 -9.3000 -9.3000 -9.3000 -9.3000 * logK= -9.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tb-DTPA-- formula= Tb(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 547.2353 g 2 species in reaction 1.000 Tb+++ 1.000 DTPA----- -26.4371 -26.1777 -25.9400 -25.6799 -25.4435 -25.2278 -25.0302 -24.8485 * logK= -25.940000 deltaH= 31.000000 kJ Tb-Formate++ formula= Tb[HCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 203.9427 g 2 species in reaction 1.000 Formate- 1.000 Tb+++ -1.8900 -1.8900 -1.8900 -1.8900 -1.8900 -1.8900 -1.8900 -1.8900 * logK= -1.890000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tb-Glycine++ formula= Tb[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 232.9841 g 2 species in reaction 1.000 Glycine- 1.000 Tb+++ -4.2500 -4.2500 -4.2500 -4.2500 -4.2500 -4.2500 -4.2500 -4.2500 * logK= -4.250000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tb-HEDTA (aq) formula= Tb(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 434.1627 g 2 species in reaction 1.000 Tb+++ 1.000 HEDTA--- -17.6048 -17.4040 -17.2200 -17.0186 -16.8356 -16.6686 -16.5156 -16.3749 * logK= -17.220000 deltaH= 24.000000 kJ Tb-iButyrate++ formula= Tb[(CH3)2CHCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 246.0231 g 2 species in reaction 1.000 iButyrate- 1.000 Tb+++ -2.3414 -2.4920 -2.6300 -2.7810 -2.9183 -3.0435 -3.1583 -3.2638 * logK= -2.630000 deltaH= -18.000000 kJ Tb-iPhthalate+ formula= Tb[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 323.0422 g 2 species in reaction 1.000 iPhthalate-- 1.000 Tb+++ -3.7376 -3.8380 -3.9300 -4.0307 -4.1222 -4.2057 -4.2822 -4.3525 * logK= -3.930000 deltaH= -12.000000 kJ Tb-Lactate++ formula= Tb[CH3CH(OH)COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 247.9957 g 2 species in reaction 1.000 Lactate- 1.000 Tb+++ -3.7058 -3.6506 -3.6000 -3.5446 -3.4943 -3.4484 -3.4063 -3.3676 * logK= -3.600000 deltaH= 6.600000 kJ Tb-Malate+ formula= Tb(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 290.9976 g 2 species in reaction 1.000 Malate-- 1.000 Tb+++ -6.0600 -6.0600 -6.0600 -6.0600 -6.0600 -6.0600 -6.0600 -6.0600 * logK= -6.060000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tb-Malonate+ formula= Tb[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 260.9714 g 2 species in reaction 1.000 Malonate-- 1.000 Tb+++ -5.5376 -5.6380 -5.7300 -5.8307 -5.9222 -6.0057 -6.0822 -6.1525 * logK= -5.730000 deltaH= -12.000000 kJ Tb-Oxalate+ formula= Tb[(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 246.9446 g 2 species in reaction 1.000 Tb+++ 1.000 Oxalate-- -6.7300 -6.7300 -6.7300 -6.7300 -6.7300 -6.7300 -6.7300 -6.7300 * logK= -6.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tb-Phthalate+ formula= Tb[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 323.0422 g 2 species in reaction 1.000 Phthalate-- 1.000 Tb+++ -4.7400 -4.7400 -4.7400 -4.7400 -4.7400 -4.7400 -4.7400 -4.7400 * logK= -4.740000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tb-Propionate++ formula= Tb(CH3CH2COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 231.9963 g 2 species in reaction 1.000 Propionate- 1.000 Tb+++ -2.4576 -2.5580 -2.6500 -2.7507 -2.8422 -2.9257 -3.0022 -3.0725 * logK= -2.650000 deltaH= -12.000000 kJ Tb-Tartrate+ formula= Tb(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 306.9970 g 2 species in reaction 1.000 Tartrate-- 1.000 Tb+++ -5.3500 -5.3500 -5.3500 -5.3500 -5.3500 -5.3500 -5.3500 -5.3500 * logK= -5.350000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TbCO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 218.9342 g 2 species in reaction 1.000 Tb+++ 1.000 CO3-- -7.7100 -7.7100 -7.7100 -7.7100 -7.7100 -7.7100 -7.7100 -7.7100 * logK= -7.710000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TbEDTA- formula= Tb(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 447.1384 g 2 species in reaction 1.000 EDTA---- 1.000 Tb+++ -20.5038 -20.4653 -20.4300 -20.3914 -20.3563 -20.3243 -20.2950 -20.2680 * logK= -20.430000 deltaH= 4.600000 kJ TbEGTA- formula= Tb(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 535.2444 g 2 species in reaction 1.000 EGTA---- 1.000 Tb+++ -20.1600 -20.1600 -20.1600 -20.1600 -20.1600 -20.1600 -20.1600 -20.1600 * logK= -20.160000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TbF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 177.9234 g 2 species in reaction 1.000 Tb+++ 1.000 F- -4.3025 -4.3795 -4.4500 -4.5272 -4.5973 -4.6614 -4.7200 -4.7739 * logK= -4.450000 deltaH= -9.200000 kJ TbH-(Malonate)2 (aq) formula= TbH[CH2(COO)2]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 364.0257 g 3 species in reaction 2.000 Malonate-- 1.000 H+ 1.000 Tb+++ -12.6074 -12.7497 -12.8800 -13.0227 -13.1523 -13.2706 -13.3789 -13.4786 * logK= -12.880000 deltaH= -17.000000 kJ TbH-DTPA- formula= TbH(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 548.2432 g 3 species in reaction 1.000 H+ 1.000 Tb+++ 1.000 DTPA----- -28.5100 -28.5100 -28.5100 -28.5100 -28.5100 -28.5100 -28.5100 -28.5100 * logK= -28.510000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TbH-Malonate++ formula= TbH[CH2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 261.9793 g 3 species in reaction 1.000 Malonate-- 1.000 H+ 1.000 Tb+++ -7.4444 -7.5308 -7.6100 -7.6967 -7.7754 -7.8473 -7.9132 -7.9737 * logK= -7.610000 deltaH= -10.330000 kJ TbH-Sal++ formula= TbH(OC6H4COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 296.0397 g 3 species in reaction 1.000 H+ 1.000 Sal-- 1.000 Tb+++ -16.7803 -16.4984 -16.2400 -15.9572 -15.7003 -15.4658 -15.2509 -15.0534 * logK= -16.240000 deltaH= 33.700000 kJ TbH-Succinate++ formula= TbH[(CH2)2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 276.0061 g 3 species in reaction 1.000 H+ 1.000 Tb+++ 1.000 Succinate-- -7.9400 -7.9400 -7.9400 -7.9400 -7.9400 -7.9400 -7.9400 -7.9400 * logK= -7.940000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TbH2-(Sal)2+ formula= TbH2(OC6H4COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 433.1544 g 3 species in reaction 2.000 H+ 2.000 Sal-- 1.000 Tb+++ -33.4411 -32.8821 -32.3700 -31.8094 -31.3001 -30.8354 -30.4095 -30.0179 * logK= -32.370000 deltaH= 66.800000 kJ TbH2-(Succinate)2+ formula= TbH2[(CH2)2(COO)2]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 393.0872 g 3 species in reaction 2.000 H+ 1.000 Tb+++ 2.000 Succinate-- -15.5500 -15.5500 -15.5500 -15.5500 -15.5500 -15.5500 -15.5500 -15.5500 * logK= -15.550000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TbHCO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 219.9421 g 3 species in reaction 1.000 H+ 1.000 Tb+++ 1.000 CO3-- -12.8800 -12.8800 -12.8800 -12.8800 -12.8800 -12.8800 -12.8800 -12.8800 * logK= -12.880000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TbHEDTA (aq) formula= TbH(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 448.1463 g 3 species in reaction 1.000 H+ 1.000 EDTA---- 1.000 Tb+++ -21.5400 -21.5400 -21.5400 -21.5400 -21.5400 -21.5400 -21.5400 -21.5400 * logK= -21.540000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TbNO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 220.9299 g 2 species in reaction 1.000 NO3- 1.000 Tb+++ -.8800 -.8800 -.8800 -.8800 -.8800 -.8800 -.8800 -.8800 * logK= -0.880000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TbNTA (aq) formula= Tb[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 347.0415 g 2 species in reaction 1.000 NTA--- 1.000 Tb+++ -13.4360 -13.4277 -13.4200 -13.4116 -13.4040 -13.3970 -13.3907 -13.3848 * logK= -13.420000 deltaH= 1.000000 kJ TbOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 175.9323 g 3 species in reaction -1.000 H+ 1.000 Tb+++ 1.000 H2O 7.5870 7.5870 7.5870 7.5870 7.5870 7.5870 7.5870 7.5870 * logK= 7.587000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TbOH-HEDTA- formula= TbOH(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 451.1700 g 4 species in reaction -1.000 H+ 1.000 Tb+++ 1.000 H2O 1.000 HEDTA--- -7.7400 -7.7400 -7.7400 -7.7400 -7.7400 -7.7400 -7.7400 -7.7400 * logK= -7.740000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TbOHNTA- formula= TbOH[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 364.0488 g 4 species in reaction 1.000 NTA--- -1.000 H+ 1.000 Tb+++ 1.000 H2O -6.0950 -6.0950 -6.0950 -6.0950 -6.0950 -6.0950 -6.0950 -6.0950 * logK= -6.095000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TbSCN++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 217.0067 g 2 species in reaction 1.000 SCN- 1.000 Tb+++ -.8400 -.8400 -.8400 -.8400 -.8400 -.8400 -.8400 -.8400 * logK= -0.840000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TbSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 254.9866 g 2 species in reaction 1.000 Tb+++ 1.000 SO4-- -3.3354 -3.4943 -3.6400 -3.7994 -3.9443 -4.0765 -4.1976 -4.3090 * logK= -3.640000 deltaH= -19.000000 kJ Th(CO3)5------ charge= -6 ion size= 0.0 A b= 0.0000 mole wt.= 532.0860 g 2 species in reaction 1.000 Th++++ 5.000 CO3-- -32.3000 -32.3000 -32.3000 -32.3000 -32.3000 -32.3000 -32.3000 -32.3000 * logK= -32.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th(OH)+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 249.0473 g 3 species in reaction 1.000 Th++++ -1.000 H+ 1.000 H2O 3.5627 3.3719 3.1970 3.0056 2.8317 2.6730 2.5276 2.3938 * logK= 3.197000 deltaH= -22.810000 kJ Th(OH)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 266.0546 g 3 species in reaction 1.000 Th++++ -2.000 H+ 2.000 H2O 7.8179 7.3357 6.8940 6.4105 5.9712 5.5703 5.2029 4.8651 * logK= 6.894000 deltaH= -57.620000 kJ Th(OH)3CO3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 343.0711 g 4 species in reaction 1.000 Th++++ -3.000 H+ 1.000 CO3-- 3.000 H2O .5000 .5000 .5000 .5000 .5000 .5000 .5000 .5000 * logK= 0.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th(SCN)3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 406.2851 g 2 species in reaction 1.000 Th++++ 3.000 SCN- -3.2100 -3.2100 -3.2100 -3.2100 -3.2100 -3.2100 -3.2100 -3.2100 * logK= -3.210000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th-(Acetate)2++ formula= Th(CH3COO)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 350.1290 g 2 species in reaction 1.000 Th++++ 2.000 Acetate- -7.9395 -8.0650 -8.1800 -8.3059 -8.4202 -8.5246 -8.6202 -8.7082 * logK= -8.180000 deltaH= -15.000000 kJ Th-(Acetate)3+ formula= Th(CH3COO)3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 409.1735 g 2 species in reaction 1.000 Th++++ 3.000 Acetate- -10.3850 -10.6277 -10.8500 -11.0934 -11.3145 -11.5162 -11.7011 -11.8711 * logK= -10.850000 deltaH= -29.000000 kJ Th-(Acetate)4 (aq) formula= Th(CH3COO)4 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 468.2180 g 2 species in reaction 1.000 Th++++ 4.000 Acetate- -11.8948 -12.1794 -12.4400 -12.7253 -12.9845 -13.2211 -13.4379 -13.6372 * logK= -12.440000 deltaH= -34.000000 kJ Th-(Acetate)5- formula= Th(CH3COO)5- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 527.2625 g 2 species in reaction 1.000 Th++++ 5.000 Acetate- -12.4307 -12.7487 -13.0400 -13.3589 -13.6486 -13.9130 -14.1553 -14.3780 * logK= -13.040000 deltaH= -38.000000 kJ Th-(Butyrate)2++ formula= Th[CH3CH2CH2COO]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 406.2362 g 2 species in reaction 1.000 Th++++ 2.000 Butyrate- -8.4300 -8.4300 -8.4300 -8.4300 -8.4300 -8.4300 -8.4300 -8.4300 * logK= -8.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th-(Butyrate)3+ formula= Th[CH3CH2CH2COO]3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 493.3343 g 2 species in reaction 1.000 Th++++ 3.000 Butyrate- -11.5800 -11.5800 -11.5800 -11.5800 -11.5800 -11.5800 -11.5800 -11.5800 * logK= -11.580000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th-(Citrate)2-- formula= Th[C3H5O(COO)3]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 610.2426 g 2 species in reaction 1.000 Th++++ 2.000 Citrate--- -24.3600 -24.3600 -24.3600 -24.3600 -24.3600 -24.3600 -24.3600 -24.3600 * logK= -24.360000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th-(Citrate)3----- formula= Th[C3H5O(COO)3]3----- charge= -5 ion size= 0.0 A b= 0.0000 mole wt.= 799.3439 g 2 species in reaction 1.000 Th++++ 3.000 Citrate--- -28.0400 -28.0400 -28.0400 -28.0400 -28.0400 -28.0400 -28.0400 -28.0400 * logK= -28.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th-(Formate)2++ formula= Th[HCOO]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 322.0754 g 2 species in reaction 1.000 Th++++ 2.000 Formate- -6.5800 -6.5800 -6.5800 -6.5800 -6.5800 -6.5800 -6.5800 -6.5800 * logK= -6.580000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th-(Formate)3+ formula= Th[HCOO]3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 367.0931 g 2 species in reaction 1.000 Th++++ 3.000 Formate- -8.5700 -8.5700 -8.5700 -8.5700 -8.5700 -8.5700 -8.5700 -8.5700 * logK= -8.570000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th-(iButyrate)2++ formula= Th[(CH3)2CHCOO]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 406.2362 g 2 species in reaction 1.000 Th++++ 2.000 iButyrate- -8.7300 -8.7300 -8.7300 -8.7300 -8.7300 -8.7300 -8.7300 -8.7300 * logK= -8.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th-(Lactate)2++ formula= Th[CH3CH(OH)COO]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 410.1814 g 2 species in reaction 1.000 Th++++ 2.000 Lactate- -9.2100 -9.2100 -9.2100 -9.2100 -9.2100 -9.2100 -9.2100 -9.2100 * logK= -9.210000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th-(Lactate)3+ formula= Th[CH3CH(OH)COO]3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 499.2521 g 2 species in reaction 1.000 Th++++ 3.000 Lactate- -12.3800 -12.3800 -12.3800 -12.3800 -12.3800 -12.3800 -12.3800 -12.3800 * logK= -12.380000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th-(Lactate)4 (aq) formula= Th[CH3CH(OH)COO]4 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 588.3228 g 2 species in reaction 1.000 Th++++ 4.000 Lactate- -15.0400 -15.0400 -15.0400 -15.0400 -15.0400 -15.0400 -15.0400 -15.0400 * logK= -15.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th-(Malonate)2 (aq) formula= Th[CH2(COO)2]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 436.1328 g 2 species in reaction 1.000 Th++++ 2.000 Malonate-- -15.0193 -15.1867 -15.3400 -15.5078 -15.6603 -15.7995 -15.9270 -16.0442 * logK= -15.340000 deltaH= -20.000000 kJ Th-(Malonate)3-- formula= Th[CH2(COO)2]3-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 538.1792 g 2 species in reaction 1.000 Th++++ 3.000 Malonate-- -18.3492 -18.5583 -18.7500 -18.9598 -19.1504 -19.3243 -19.4837 -19.6303 * logK= -18.750000 deltaH= -25.000000 kJ Th-(Oxalate)2 formula= Th[(COO)2]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 408.0792 g 2 species in reaction 1.000 Th++++ 2.000 Oxalate-- -19.3500 -19.3500 -19.3500 -19.3500 -19.3500 -19.3500 -19.3500 -19.3500 * logK= -19.350000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th-(Oxalate)3-- formula= Th[(COO)2]3-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 496.0988 g 2 species in reaction 1.000 Th++++ 3.000 Oxalate-- -25.2500 -25.2500 -25.2500 -25.2500 -25.2500 -25.2500 -25.2500 -25.2500 * logK= -25.250000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th-(Oxalate)4---- formula= Th[(COO)2]4---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 584.1184 g 2 species in reaction 1.000 Th++++ 4.000 Oxalate-- -28.8400 -28.8400 -28.8400 -28.8400 -28.8400 -28.8400 -28.8400 -28.8400 * logK= -28.840000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th-(Phthalate)2 (aq) formula= Th[C6H4(COO)2]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 560.2744 g 2 species in reaction 1.000 Th++++ 2.000 Phthalate-- -12.6000 -12.6000 -12.6000 -12.6000 -12.6000 -12.6000 -12.6000 -12.6000 * logK= -12.600000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th-(Propionate)2++ formula= Th(CH3CH2COO)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 378.1826 g 2 species in reaction 1.000 Th++++ 2.000 Propionate- -8.6800 -8.6800 -8.6800 -8.6800 -8.6800 -8.6800 -8.6800 -8.6800 * logK= -8.680000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th-(Propionate)3+ formula= Th(CH3CH2COO)3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 451.2539 g 2 species in reaction 1.000 Th++++ 3.000 Propionate- -11.2800 -11.2800 -11.2800 -11.2800 -11.2800 -11.2800 -11.2800 -11.2800 * logK= -11.280000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th-(Propionate)4 (aq) formula= Th(CH3CH2COO)4 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 524.3252 g 2 species in reaction 1.000 Th++++ 4.000 Propionate- -13.3400 -13.3400 -13.3400 -13.3400 -13.3400 -13.3400 -13.3400 -13.3400 * logK= -13.340000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th-Acetate+++ formula= Th(CH3COO)+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 291.0845 g 2 species in reaction 1.000 Th++++ 1.000 Acetate- -4.5136 -4.6057 -4.6900 -4.7823 -4.8662 -4.9427 -5.0128 -5.0773 * logK= -4.690000 deltaH= -11.000000 kJ Th-Benzoate+++ formula= Th(C6H5COO)+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 353.1553 g 2 species in reaction 1.000 Th++++ 1.000 Benzoate- -4.3697 -4.4533 -4.5300 -4.6139 -4.6902 -4.7597 -4.8235 -4.8821 * logK= -4.530000 deltaH= -10.000000 kJ Th-Butyrate+++ formula= Th[CH3CH2CH2COO]+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 319.1381 g 2 species in reaction 1.000 Th++++ 1.000 Butyrate- -4.7200 -4.7200 -4.7200 -4.7200 -4.7200 -4.7200 -4.7200 -4.7200 * logK= -4.720000 deltaH= 0.000000 kJ Th-Citrate+ formula= Th[C3H5O(COO)3]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 421.1413 g 2 species in reaction 1.000 Th++++ 1.000 Citrate--- -14.1900 -14.1900 -14.1900 -14.1900 -14.1900 -14.1900 -14.1900 -14.1900 * logK= -14.190000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th-DTPA- formula= Th(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 620.3503 g 2 species in reaction 1.000 Th++++ 1.000 DTPA----- -33.1924 -33.0920 -33.0000 -32.8993 -32.8078 -32.7243 -32.6478 -32.5775 * logK= -33.000000 deltaH= 12.000000 kJ Th-Formate+++ formula= Th[HCOO]+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 277.0577 g 2 species in reaction 1.000 Th++++ 1.000 Formate- -3.9100 -3.9100 -3.9100 -3.9100 -3.9100 -3.9100 -3.9100 -3.9100 * logK= -3.910000 deltaH= 0.000000 kJ Th-Glutarate++ formula= Th[C3H6(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 362.1400 g 2 species in reaction 1.000 Th++++ 1.000 Glutarate-- -9.1600 -9.1600 -9.1600 -9.1600 -9.1600 -9.1600 -9.1600 -9.1600 * logK= -9.160000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th-HEDTA+ formula= Th(C10H15N2O7)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 507.2777 g 2 species in reaction 1.000 Th++++ 1.000 HEDTA--- -21.1538 -21.1153 -21.0800 -21.0414 -21.0063 -20.9743 -20.9450 -20.9180 * logK= -21.080000 deltaH= 4.600000 kJ Th-iButyrate+++ formula= Th[(CH3)2CHCOO]+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 319.1381 g 2 species in reaction 1.000 Th++++ 1.000 iButyrate- -4.6700 -4.6700 -4.6700 -4.6700 -4.6700 -4.6700 -4.6700 -4.6700 * logK= -4.670000 deltaH= 0.000000 kJ Th-Lactate+++ formula= Th[CH3CH(OH)COO]+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 321.1107 g 2 species in reaction 1.000 Th++++ 1.000 Lactate- -5.0300 -5.0300 -5.0300 -5.0300 -5.0300 -5.0300 -5.0300 -5.0300 * logK= -5.030000 deltaH= 0.000000 kJ Th-Malonate++ formula= Th[CH2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 334.0864 g 2 species in reaction 1.000 Th++++ 1.000 Malonate-- -8.9236 -9.0157 -9.1000 -9.1923 -9.2762 -9.3527 -9.4228 -9.4873 * logK= -9.100000 deltaH= -11.000000 kJ Th-Oxalate++ formula= Th[(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 320.0596 g 2 species in reaction 1.000 Th++++ 1.000 Oxalate-- -10.5521 -10.5353 -10.5200 -10.5032 -10.4880 -10.4741 -10.4613 -10.4496 * logK= -10.520000 deltaH= 2.000000 kJ Th-Phthalate++ formula= Th[C6H4(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 396.1572 g 2 species in reaction 1.000 Th++++ 1.000 Phthalate-- -7.5500 -7.5500 -7.5500 -7.5500 -7.5500 -7.5500 -7.5500 -7.5500 * logK= -7.550000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th-Propionate+++ formula= Th(CH3CH2COO)+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 305.1113 g 2 species in reaction 1.000 Th++++ 1.000 Propionate- -4.7600 -4.7600 -4.7600 -4.7600 -4.7600 -4.7600 -4.7600 -4.7600 * logK= -4.760000 deltaH= 0.000000 kJ Th-Succinate++ formula= Th[(CH2)2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 348.1132 g 2 species in reaction 1.000 Th++++ 1.000 Succinate-- -7.7814 -7.9320 -8.0700 -8.2210 -8.3583 -8.4835 -8.5983 -8.7038 * logK= -8.070000 deltaH= -18.000000 kJ Th2(OH)2++++++ charge= 6 ion size= 0.0 A b= 0.0000 mole wt.= 498.0946 g 3 species in reaction 2.000 Th++++ -2.000 H+ 2.000 H2O 7.0820 6.5664 6.0940 5.5769 5.1071 4.6784 4.2855 3.9243 * logK= 6.094000 deltaH= -61.620000 kJ ThCl+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 267.4930 g 2 species in reaction 1.000 Th++++ 1.000 Cl- -1.3800 -1.3800 -1.3800 -1.3800 -1.3800 -1.3800 -1.3800 -1.3800 * logK= -1.380000 deltaH= 0.000000 kJ ThCrO4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 348.0336 g 2 species in reaction 1.000 Th++++ 1.000 CrO4-- -8.1814 -8.3320 -8.4700 -8.6210 -8.7583 -8.8835 -8.9983 -9.1038 * logK= -8.470000 deltaH= -18.000000 kJ ThEDTA (aq) formula= Th(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 520.2534 g 2 species in reaction 1.000 Th++++ 1.000 EDTA---- -26.8424 -26.7420 -26.6500 -26.5493 -26.4578 -26.3743 -26.2978 -26.2275 * logK= -26.650000 deltaH= 12.000000 kJ ThEGTA (aq) formula= Th(C14H20N2O10) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 608.3594 g 2 species in reaction 1.000 Th++++ 1.000 EGTA---- -23.7576 -23.8580 -23.9500 -24.0507 -24.1422 -24.2257 -24.3022 -24.3725 * logK= -23.950000 deltaH= -12.000000 kJ ThF+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 251.0384 g 2 species in reaction 1.000 Th++++ 1.000 F- -8.6340 -8.6423 -8.6500 -8.6584 -8.6660 -8.6730 -8.6793 -8.6852 * logK= -8.650000 deltaH= -1.000000 kJ ThF2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 270.0368 g 2 species in reaction 1.000 Th++++ 2.000 F- -15.1943 -15.2286 -15.2600 -15.2944 -15.3257 -15.3542 -15.3803 -15.4044 * logK= -15.260000 deltaH= -4.100000 kJ ThF3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 289.0352 g 2 species in reaction 1.000 Th++++ 3.000 F- -20.0733 -20.1394 -20.2000 -20.2663 -20.3265 -20.3815 -20.4319 -20.4782 * logK= -20.200000 deltaH= -7.900000 kJ ThF4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 308.0336 g 2 species in reaction 1.000 Th++++ 4.000 F- -23.2000 -23.2000 -23.2000 -23.2000 -23.2000 -23.2000 -23.2000 -23.2000 * logK= -23.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ThH-(Succinate)2+ formula= ThH[(CH2)2(COO)2]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 465.1943 g 3 species in reaction 1.000 Th++++ 1.000 H+ 2.000 Succinate-- -16.2769 -16.4559 -16.6200 -16.7996 -16.9627 -17.1116 -17.2481 -17.3735 * logK= -16.620000 deltaH= -21.400000 kJ ThH-DTPA (aq) formula= ThH(C14H18N3O10) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 621.3582 g 3 species in reaction 1.000 Th++++ 1.000 H+ 1.000 DTPA----- -35.5724 -35.4720 -35.3800 -35.2793 -35.1878 -35.1043 -35.0278 -34.9575 * logK= -35.380000 deltaH= 12.000000 kJ ThH-Glutarate+++ formula= ThH[C3H6(COO)2]+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 363.1479 g 3 species in reaction 1.000 Th++++ 1.000 H+ 1.000 Glutarate-- -9.7200 -9.7200 -9.7200 -9.7200 -9.7200 -9.7200 -9.7200 -9.7200 * logK= -9.720000 deltaH= 0.000000 kJ ThH-Glycine++++ formula= ThH[NH2CH2COO]++++ charge= 4 ion size= 0.0 A b= 0.0000 mole wt.= 307.1070 g 3 species in reaction 1.000 Th++++ 1.000 Glycine- 1.000 H+ -12.8754 -12.5386 -12.2300 -11.8922 -11.5854 -11.3053 -11.0487 -10.8127 * logK= -12.230000 deltaH= 40.250000 kJ ThH-Oxalate+++ formula= ThH[(COO)2]+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 321.0675 g 3 species in reaction 1.000 Th++++ 1.000 H+ 1.000 Oxalate-- -17.4900 -17.4900 -17.4900 -17.4900 -17.4900 -17.4900 -17.4900 -17.4900 * logK= -17.490000 deltaH= 0.000000 kJ ThH-Sal+++ formula= ThH(OC6H4COO)+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 369.1547 g 3 species in reaction 1.000 Th++++ 1.000 H+ 1.000 Sal-- -18.8100 -18.8100 -18.8100 -18.8100 -18.8100 -18.8100 -18.8100 -18.8100 * logK= -18.810000 deltaH= 0.000000 kJ ThH-Succinate+++ formula= ThH[(CH2)2(COO)2]+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 349.1211 g 3 species in reaction 1.000 Th++++ 1.000 H+ 1.000 Succinate-- -9.9718 -10.0178 -10.0600 -10.1062 -10.1481 -10.1864 -10.2214 -10.2537 * logK= -10.060000 deltaH= -5.500000 kJ ThH2-(Glutarate)2++ formula= ThH2[C3H6(COO)2]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 494.2558 g 3 species in reaction 1.000 Th++++ 2.000 H+ 2.000 Glutarate-- -18.4100 -18.4100 -18.4100 -18.4100 -18.4100 -18.4100 -18.4100 -18.4100 * logK= -18.410000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ThH2-(Glycine)2++++ formula= ThH2[NH2CH2COO]2++++ charge= 4 ion size= 0.0 A b= 0.0000 mole wt.= 382.1740 g 3 species in reaction 1.000 Th++++ 2.000 Glycine- 2.000 H+ -24.8627 -24.1933 -23.5800 -22.9087 -22.2987 -21.7421 -21.2321 -20.7631 * logK= -23.580000 deltaH= 80.000000 kJ ThH2-(Sal)2++ formula= ThH2(OC6H4COO)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 506.2694 g 3 species in reaction 1.000 Th++++ 2.000 H+ 2.000 Sal-- -36.5000 -36.5000 -36.5000 -36.5000 -36.5000 -36.5000 -36.5000 -36.5000 * logK= -36.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ThH3-(Glycine)3++++ formula= ThH3[NH2CH2COO]3++++ charge= 4 ion size= 0.0 A b= 0.0000 mole wt.= 457.2410 g 3 species in reaction 1.000 Th++++ 3.000 Glycine- 3.000 H+ -36.5630 -35.5333 -34.5900 -33.5574 -32.6192 -31.7631 -30.9786 -30.2573 * logK= -34.590000 deltaH= 123.050000 kJ ThH3-(Sal)3+ formula= ThH3(OC6H4COO)3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 643.3841 g 3 species in reaction 1.000 Th++++ 3.000 H+ 3.000 Sal-- -53.0800 -53.0800 -53.0800 -53.0800 -53.0800 -53.0800 -53.0800 -53.0800 * logK= -53.080000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ThH4-(Sal)4 (aq) formula= ThH4(OC6H4COO)4 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 780.4988 g 3 species in reaction 1.000 Th++++ 4.000 H+ 4.000 Sal-- -68.5600 -68.5600 -68.5600 -68.5600 -68.5600 -68.5600 -68.5600 -68.5600 * logK= -68.560000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ThHEDTA+ formula= ThH(C10H12N2O8)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 521.2613 g 3 species in reaction 1.000 Th++++ 1.000 H+ 1.000 EDTA---- -28.6400 -28.6400 -28.6400 -28.6400 -28.6400 -28.6400 -28.6400 -28.6400 * logK= -28.640000 deltaH= 0.000000 kJ ThNO3+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 294.0449 g 2 species in reaction 1.000 Th++++ 1.000 NO3- -1.7500 -1.7500 -1.7500 -1.7500 -1.7500 -1.7500 -1.7500 -1.7500 * logK= -1.750000 deltaH= 0.000000 kJ ThNTA+ formula= Th[N(CH2COO)3]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 420.1565 g 2 species in reaction 1.000 Th++++ 1.000 NTA--- -14.8870 -14.9355 -14.9800 -15.0287 -15.0729 -15.1132 -15.1502 -15.1842 * logK= -14.980000 deltaH= -5.800000 kJ ThOH-DTPA-- formula= ThOH(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 637.3576 g 4 species in reaction 1.000 Th++++ -1.000 H+ 1.000 DTPA----- 1.000 H2O -27.6900 -27.6900 -27.6900 -27.6900 -27.6900 -27.6900 -27.6900 -27.6900 * logK= -27.690000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ThOH-HEDTA (aq) formula= ThOH(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 524.2850 g 4 species in reaction 1.000 Th++++ -1.000 H+ 1.000 H2O 1.000 HEDTA--- -15.6900 -15.6900 -15.6900 -15.6900 -15.6900 -15.6900 -15.6900 -15.6900 * logK= -15.690000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ThOHEDTA- formula= ThOH(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 537.2607 g 4 species in reaction 1.000 Th++++ -1.000 H+ 1.000 EDTA---- 1.000 H2O 3.5200 3.5200 3.5200 3.5200 3.5200 3.5200 3.5200 3.5200 * logK= 3.520000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ThOHEGTA- formula= ThOH(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 625.3667 g 4 species in reaction 1.000 Th++++ 1.000 EGTA---- -1.000 H+ 1.000 H2O 3.2470 3.2470 3.2470 3.2470 3.2470 3.2470 3.2470 3.2470 * logK= 3.247000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ThOHNTA (aq) formula= ThOH[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 419.1486 g 3 species in reaction 1.000 Th++++ 1.000 NTA--- -1.000 H+ -9.5930 -9.5930 -9.5930 -9.5930 -9.5930 -9.5930 -9.5930 -9.5930 * logK= -9.593000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ThSCN+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 290.1217 g 2 species in reaction 1.000 Th++++ 1.000 SCN- -1.9000 -1.9000 -1.9000 -1.9000 -1.9000 -1.9000 -1.9000 -1.9000 * logK= -1.900000 deltaH= 0.000000 kJ Ti(OH)3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 98.9219 g 3 species in reaction 1.000 H+ -1.000 H2O 1.000 Ti(OH)4 -5.0611 -4.4291 -3.9035 -3.3923 -2.9915 -2.6839 -2.4553 -2.2941 * logK= -1.822000 deltaH= 0.000000 kJ * analytic data = -202.26 0 12067 66.961 0 0 0 Ti(OH)5- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 132.9365 g 3 species in reaction -1.000 H+ 1.000 H2O 1.000 Ti(OH)4 10.3979 10.4734 10.5059 10.4972 10.4455 10.3583 10.2418 10.1008 * logK= 11.983000 deltaH= 0.000000 kJ * analytic data = -144.94 0 6064.5 46.109 0 0 0 Tl(NTA)2--- formula= Tl[N(CH2COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 580.6030 g 4 species in reaction 2.000 NTA--- 1.000 Tl(OH)3 3.000 H+ -3.000 H2O -37.7300 -37.7300 -37.7300 -37.7300 -37.7300 -37.7300 -37.7300 -37.7300 * logK= -37.730000 deltaH= 0.000000 kJ Tl(OH)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 238.3846 g 3 species in reaction 1.000 Tl(OH)3 1.000 H+ -1.000 H2O -1.8970 -1.8970 -1.8970 -1.8970 -1.8970 -1.8970 -1.8970 -1.8970 * logK= -1.897000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tl(OH)4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 272.3992 g 3 species in reaction 1.000 Tl(OH)3 -1.000 H+ 1.000 H2O 11.6970 11.6970 11.6970 11.6970 11.6970 11.6970 11.6970 11.6970 * logK= 11.697000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tl+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 204.3700 g 3 species in reaction 1.000 Tl(OH)3 3.000 H+ -3.000 H2O -3.2910 -3.2910 -3.2910 -3.2910 -3.2910 -3.2910 -3.2910 -3.2910 * logK= -3.291000 deltaH= 0.000000 kJ Tl-Acetate (aq) formula= Tl(CH3COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 263.4145 g 2 species in reaction 1.000 Acetate- 1.000 Tl+ .1200 .1200 .1200 .1200 .1200 .1200 .1200 .1200 * logK= 0.120000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tl-Citrate-- formula= Tl[C3H5O(COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 393.4713 g 2 species in reaction 1.000 Tl+ 1.000 Citrate--- -1.4800 -1.4800 -1.4800 -1.4800 -1.4800 -1.4800 -1.4800 -1.4800 * logK= -1.480000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tl-DTPA---- formula= Tl(C14H18N3O10)---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 592.6803 g 2 species in reaction 1.000 Tl+ 1.000 DTPA----- -7.0400 -7.0400 -7.0400 -7.0400 -7.0400 -7.0400 -7.0400 -7.0400 * logK= -7.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tl-Glycine (aq) formula= Tl[NH2CH2COO] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 278.4291 g 2 species in reaction 1.000 Glycine- 1.000 Tl+ -1.7300 -1.7300 -1.7300 -1.7300 -1.7300 -1.7300 -1.7300 -1.7300 * logK= -1.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tl-Tartrate- formula= Tl(C4H4O6)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 352.4420 g 2 species in reaction 1.000 Tartrate-- 1.000 Tl+ -1.4300 -1.4300 -1.4300 -1.4300 -1.4300 -1.4300 -1.4300 -1.4300 * logK= -1.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tl2(OH)2(HS)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 508.8984 g 4 species in reaction 2.000 Tl+ -2.000 H+ 2.000 HS- 2.000 H2O 11.0681 11.0681 11.0681 11.0681 11.0681 11.0681 11.0681 11.0681 * logK= 11.068100 deltaH= 0.000000 kJ Tl2HS+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 441.8119 g 2 species in reaction 2.000 Tl+ 1.000 HS- -6.1800 -6.1800 -6.1800 -6.1800 -6.1800 -6.1800 -6.1800 -6.1800 * logK= -6.180000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tl2OH(HS)3-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 524.9630 g 4 species in reaction 2.000 Tl+ -1.000 H+ 3.000 HS- 1.000 H2O -1.0044 -1.0044 -1.0044 -1.0044 -1.0044 -1.0044 -1.0044 -1.0044 * logK= -1.004400 deltaH= 0.000000 kJ TlBr (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 284.2740 g 2 species in reaction 1.000 Br- 1.000 Tl+ -1.1024 -1.0020 -.9100 -.8093 -.7178 -.6343 -.5578 -.4875 * logK= -0.910000 deltaH= 12.000000 kJ TlBr++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 284.2740 g 4 species in reaction 1.000 Br- 1.000 Tl(OH)3 3.000 H+ -3.000 H2O -12.8000 -12.8000 -12.8000 -12.8000 -12.8000 -12.8000 -12.8000 -12.8000 * logK= -12.800000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TlBr2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 364.1780 g 4 species in reaction 2.000 Br- 1.000 Tl(OH)3 3.000 H+ -3.000 H2O -20.7100 -20.7100 -20.7100 -20.7100 -20.7100 -20.7100 -20.7100 -20.7100 * logK= -20.710000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TlBr3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 444.0820 g 4 species in reaction 3.000 Br- 1.000 Tl(OH)3 3.000 H+ -3.000 H2O -27.0244 -27.0244 -27.0244 -27.0244 -27.0244 -27.0244 -27.0244 -27.0244 * logK= -27.024400 deltaH= 0.000000 kJ TlBr4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 523.9860 g 4 species in reaction 4.000 Br- 1.000 Tl(OH)3 3.000 H+ -3.000 H2O -31.1533 -31.1533 -31.1533 -31.1533 -31.1533 -31.1533 -31.1533 -31.1533 * logK= -31.153300 deltaH= 0.000000 kJ TlBrCl- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 319.7270 g 3 species in reaction 1.000 Br- 1.000 Cl- 1.000 Tl+ -.8165 -.8165 -.8165 -.8165 -.8165 -.8165 -.8165 -.8165 * logK= -0.816500 deltaH= 0.000000 kJ TlCl (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 239.8230 g 2 species in reaction 1.000 Cl- 1.000 Tl+ -.6694 -.6175 -.5700 -.5180 -.4707 -.4276 -.3880 -.3517 * logK= -0.570000 deltaH= 6.200000 kJ TlCl++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 239.8230 g 4 species in reaction 1.000 Cl- 1.000 Tl(OH)3 3.000 H+ -3.000 H2O -11.0100 -11.0100 -11.0100 -11.0100 -11.0100 -11.0100 -11.0100 -11.0100 * logK= -11.010000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TlCl2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 275.2760 g 4 species in reaction 2.000 Cl- 1.000 Tl(OH)3 3.000 H+ -3.000 H2O -16.7700 -16.7700 -16.7700 -16.7700 -16.7700 -16.7700 -16.7700 -16.7700 * logK= -16.770000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TlCl3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 310.7290 g 4 species in reaction 3.000 Cl- 1.000 Tl(OH)3 3.000 H+ -3.000 H2O -19.7700 -19.7700 -19.7700 -19.7700 -19.7700 -19.7700 -19.7700 -19.7700 * logK= -19.770000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TlCl4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 346.1820 g 4 species in reaction 4.000 Cl- 1.000 Tl(OH)3 3.000 H+ -3.000 H2O -21.5800 -21.5800 -21.5800 -21.5800 -21.5800 -21.5800 -21.5800 -21.5800 * logK= -21.580000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TlClO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 303.8206 g 2 species in reaction 1.000 ClO4- 1.000 Tl+ 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 * logK= 0.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TlEDTA- formula= Tl(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 492.5834 g 4 species in reaction 1.000 Tl(OH)3 3.000 H+ 1.000 EDTA---- -3.000 H2O -41.1500 -41.1500 -41.1500 -41.1500 -41.1500 -41.1500 -41.1500 -41.1500 * logK= -41.150000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TlEDTA--- formula= Tl(C10H12N2O8)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 492.5834 g 2 species in reaction 1.000 Tl+ 1.000 EDTA---- -7.9575 -7.5935 -7.2600 -6.8950 -6.5633 -6.2606 -5.9833 -5.7283 * logK= -7.260000 deltaH= 43.500000 kJ TlEGTA--- formula= Tl(C14H20N2O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 580.6894 g 2 species in reaction 1.000 EGTA---- 1.000 Tl+ -5.2300 -5.2300 -5.2300 -5.2300 -5.2300 -5.2300 -5.2300 -5.2300 * logK= -5.230000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TlF (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 223.3684 g 2 species in reaction 1.000 Tl+ 1.000 F- -.1000 -.1000 -.1000 -.1000 -.1000 -.1000 -.1000 -.1000 * logK= -0.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TlFe(CN)6--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 416.3232 g 3 species in reaction 1.000 Tl+ 1.000 Fe++ 6.000 CN- -44.2604 -41.2020 -38.4000 -35.3329 -32.5462 -30.0031 -27.6730 -25.5303 * logK= -38.400000 deltaH= 365.500000 kJ TlH-DTPA--- formula= TlH(C14H18N3O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 593.6882 g 3 species in reaction 1.000 Tl+ 1.000 H+ 1.000 DTPA----- -16.7000 -16.7000 -16.7000 -16.7000 -16.7000 -16.7000 -16.7000 -16.7000 * logK= -16.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TlHEDTA-- formula= TlH(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 493.5913 g 3 species in reaction 1.000 Tl+ 1.000 H+ 1.000 EDTA---- -13.6800 -13.6800 -13.6800 -13.6800 -13.6800 -13.6800 -13.6800 -13.6800 * logK= -13.680000 deltaH= 0.000000 kJ TlHEGTA-- formula= TlH(C14H20N2O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 581.6973 g 3 species in reaction 1.000 EGTA---- 1.000 Tl+ 1.000 H+ -14.8100 -14.8100 -14.8100 -14.8100 -14.8100 -14.8100 -14.8100 -14.8100 * logK= -14.810000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TlHS (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 237.4419 g 2 species in reaction 1.000 Tl+ 1.000 HS- -2.5700 -2.5700 -2.5700 -2.5700 -2.5700 -2.5700 -2.5700 -2.5700 * logK= -2.570000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TlI (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 331.2744 g 2 species in reaction 1.000 Tl+ 1.000 I- -1.4279 -1.4279 -1.4279 -1.4279 -1.4279 -1.4279 -1.4279 -1.4279 * logK= -1.427900 deltaH= 0.000000 kJ TlI2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 458.1788 g 2 species in reaction 1.000 Tl+ 2.000 I- -1.8588 -1.8588 -1.8588 -1.8588 -1.8588 -1.8588 -1.8588 -1.8588 * logK= -1.858800 deltaH= 0.000000 kJ TlI4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 711.9876 g 4 species in reaction 1.000 Tl(OH)3 3.000 H+ 4.000 I- -3.000 H2O -34.7596 -34.7596 -34.7596 -34.7596 -34.7596 -34.7596 -34.7596 -34.7596 * logK= -34.759600 deltaH= 0.000000 kJ TlIBr- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 411.1784 g 3 species in reaction 1.000 Br- 1.000 Tl+ 1.000 I- -2.1850 -2.1850 -2.1850 -2.1850 -2.1850 -2.1850 -2.1850 -2.1850 * logK= -2.185000 deltaH= 0.000000 kJ TlNO2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 250.3755 g 2 species in reaction 1.000 Tl+ 1.000 NO2- -.8300 -.8300 -.8300 -.8300 -.8300 -.8300 -.8300 -.8300 * logK= -0.830000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TlNO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 266.3749 g 2 species in reaction 1.000 Tl+ 1.000 NO3- -.3621 -.3453 -.3300 -.3132 -.2980 -.2841 -.2713 -.2596 * logK= -0.330000 deltaH= 2.000000 kJ TlNO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 266.3749 g 4 species in reaction 1.000 Tl(OH)3 1.000 NO3- 3.000 H+ -3.000 H2O -7.0073 -7.0073 -7.0073 -7.0073 -7.0073 -7.0073 -7.0073 -7.0073 * logK= -7.007300 deltaH= 0.000000 kJ TlNTA (aq) formula= Tl[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 392.4865 g 4 species in reaction 1.000 NTA--- 1.000 Tl(OH)3 3.000 H+ -3.000 H2O -26.1300 -26.1300 -26.1300 -26.1300 -26.1300 -26.1300 -26.1300 -26.1300 * logK= -26.130000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TlNTA-- formula= Tl[N(CH2COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 392.4865 g 2 species in reaction 1.000 NTA--- 1.000 Tl+ -5.3900 -5.3900 -5.3900 -5.3900 -5.3900 -5.3900 -5.3900 -5.3900 * logK= -5.390000 deltaH= 0.000000 kJ TlOH (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 221.3773 g 3 species in reaction 1.000 Tl+ -1.000 H+ 1.000 H2O 14.1179 13.6425 13.2070 12.7303 12.2971 11.9019 11.5397 11.2067 * logK= 13.207000 deltaH= -56.810000 kJ TlOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 221.3773 g 3 species in reaction 1.000 Tl(OH)3 2.000 H+ -2.000 H2O -2.6940 -2.6940 -2.6940 -2.6940 -2.6940 -2.6940 -2.6940 -2.6940 * logK= -2.694000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TlSCN (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 262.4517 g 2 species in reaction 1.000 Tl+ 1.000 SCN- -.7724 -.6720 -.5800 -.4793 -.3878 -.3043 -.2278 -.1575 * logK= -0.580000 deltaH= 12.000000 kJ TlSO4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 300.4316 g 2 species in reaction 1.000 Tl+ 1.000 SO4-- -1.4983 -1.4313 -1.3700 -1.3029 -1.2419 -1.1862 -1.1352 -1.0883 * logK= -1.370000 deltaH= 8.000000 kJ Tm(NTA)2--- formula= Tm[N(CH2COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 545.1670 g 2 species in reaction 2.000 NTA--- 1.000 Tm+++ -23.2603 -23.1975 -23.1400 -23.0771 -23.0199 -22.9677 -22.9199 -22.8759 * logK= -23.140000 deltaH= 7.500000 kJ Tm(SO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 361.0572 g 2 species in reaction 1.000 Tm+++ 2.000 SO4-- -4.6350 -4.8777 -5.1000 -5.3434 -5.5645 -5.7662 -5.9511 -6.1211 * logK= -5.100000 deltaH= -29.000000 kJ Tm-(Acetate)2+ formula= Tm(CH3COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 287.0230 g 2 species in reaction 2.000 Acetate- 1.000 Tm+++ -4.0900 -4.0900 -4.0900 -4.0900 -4.0900 -4.0900 -4.0900 -4.0900 * logK= -4.090000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tm-(Acetate)3 (aq) formula= Tm(CH3COO)3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 346.0675 g 2 species in reaction 3.000 Acetate- 1.000 Tm+++ -5.4500 -5.4500 -5.4500 -5.4500 -5.4500 -5.4500 -5.4500 -5.4500 * logK= -5.450000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tm-(Benzoate)2+ formula= Tm(C6H5COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 411.1646 g 2 species in reaction 1.000 Tm+++ 2.000 Benzoate- -4.7100 -4.7100 -4.7100 -4.7100 -4.7100 -4.7100 -4.7100 -4.7100 * logK= -4.710000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tm-(Formate)2+ formula= Tm[HCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 258.9694 g 2 species in reaction 1.000 Tm+++ 2.000 Formate- -2.6800 -2.6800 -2.6800 -2.6800 -2.6800 -2.6800 -2.6800 -2.6800 * logK= -2.680000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tm-(iButyrate)2+ formula= Tm[(CH3)2CHCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 343.1302 g 2 species in reaction 2.000 iButyrate- 1.000 Tm+++ -2.9947 -3.3210 -3.6200 -3.9473 -4.2446 -4.5160 -4.7646 -4.9932 * logK= -3.620000 deltaH= -39.000000 kJ Tm-(Lactate)2+ formula= Tm[CH3CH(OH)COO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 347.0754 g 2 species in reaction 2.000 Lactate- 1.000 Tm+++ -6.7900 -6.7900 -6.7900 -6.7900 -6.7900 -6.7900 -6.7900 -6.7900 * logK= -6.790000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tm-(Lactate)3 (aq) formula= Tm[CH3CH(OH)COO]3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 436.1461 g 2 species in reaction 3.000 Lactate- 1.000 Tm+++ -8.7300 -8.7300 -8.7300 -8.7300 -8.7300 -8.7300 -8.7300 -8.7300 * logK= -8.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tm-(Malate)2- formula= Tm(C4H4O5)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 433.0792 g 2 species in reaction 1.000 Tm+++ 2.000 Malate-- -10.2200 -10.2200 -10.2200 -10.2200 -10.2200 -10.2200 -10.2200 -10.2200 * logK= -10.220000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tm-(Malonate)2- formula= Tm[CH2(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 373.0268 g 2 species in reaction 2.000 Malonate-- 1.000 Tm+++ -8.3612 -8.5537 -8.7300 -8.9230 -9.0984 -9.2584 -9.4050 -9.5399 * logK= -8.730000 deltaH= -23.000000 kJ Tm-(Malonate)3--- formula= Tm[CH2(COO)2]3--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 475.0732 g 2 species in reaction 3.000 Malonate-- 1.000 Tm+++ -8.3209 -8.5970 -8.8500 -9.1269 -9.3785 -9.6081 -9.8185 -10.0120 * logK= -8.850000 deltaH= -33.000000 kJ Tm-(Oxalate)2- formula= Tm[(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 344.9732 g 2 species in reaction 1.000 Tm+++ 2.000 Oxalate-- -11.2400 -11.2400 -11.2400 -11.2400 -11.2400 -11.2400 -11.2400 -11.2400 * logK= -11.240000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tm-(Propionate)2+ formula= Tm(CH3CH2COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 315.0766 g 2 species in reaction 2.000 Propionate- 1.000 Tm+++ -4.0710 -4.3053 -4.5200 -4.7550 -4.9684 -5.1633 -5.3418 -5.5059 * logK= -4.520000 deltaH= -28.000000 kJ Tm-Acetate++ formula= Tm(CH3COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 227.9785 g 2 species in reaction 1.000 Acetate- 1.000 Tm+++ -2.4700 -2.4700 -2.4700 -2.4700 -2.4700 -2.4700 -2.4700 -2.4700 * logK= -2.470000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tm-Benzoate++ formula= Tm(C6H5COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 290.0493 g 2 species in reaction 1.000 Tm+++ 1.000 Benzoate- -2.4297 -2.5133 -2.5900 -2.6739 -2.7502 -2.8197 -2.8835 -2.9421 * logK= -2.590000 deltaH= -10.000000 kJ Tm-Citrate (aq) formula= Tm[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 358.0353 g 2 species in reaction 1.000 Tm+++ 1.000 Citrate--- -9.5500 -9.5500 -9.5500 -9.5500 -9.5500 -9.5500 -9.5500 -9.5500 * logK= -9.550000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tm-DTPA-- formula= Tm(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 557.2443 g 2 species in reaction 1.000 Tm+++ 1.000 DTPA----- -26.3669 -26.1493 -25.9500 -25.7318 -25.5336 -25.3527 -25.1869 -25.0345 * logK= -25.950000 deltaH= 26.000000 kJ Tm-Formate++ formula= Tm[HCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 213.9517 g 2 species in reaction 1.000 Tm+++ 1.000 Formate- -1.7300 -1.7300 -1.7300 -1.7300 -1.7300 -1.7300 -1.7300 -1.7300 * logK= -1.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tm-HEDTA (aq) formula= Tm(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 444.1717 g 2 species in reaction 1.000 Tm+++ 1.000 HEDTA--- -17.6203 -17.5575 -17.5000 -17.4371 -17.3799 -17.3277 -17.2799 -17.2359 * logK= -17.500000 deltaH= 7.500000 kJ Tm-iButyrate++ formula= Tm[(CH3)2CHCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 256.0321 g 2 species in reaction 1.000 iButyrate- 1.000 Tm+++ -2.1473 -2.3313 -2.5000 -2.6846 -2.8524 -3.0054 -3.1457 -3.2746 * logK= -2.500000 deltaH= -22.000000 kJ Tm-iPhthalate+ formula= Tm[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 333.0512 g 2 species in reaction 1.000 iPhthalate-- 1.000 Tm+++ -3.5874 -3.7297 -3.8600 -4.0027 -4.1323 -4.2506 -4.3589 -4.4586 * logK= -3.860000 deltaH= -17.000000 kJ Tm-Lactate++ formula= Tm[CH3CH(OH)COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 258.0047 g 2 species in reaction 1.000 Lactate- 1.000 Tm+++ -3.8200 -3.8200 -3.8200 -3.8200 -3.8200 -3.8200 -3.8200 -3.8200 * logK= -3.820000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tm-Malate+ formula= Tm(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 301.0066 g 2 species in reaction 1.000 Tm+++ 1.000 Malate-- -6.2900 -6.2900 -6.2900 -6.2900 -6.2900 -6.2900 -6.2900 -6.2900 * logK= -6.290000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tm-Malonate+ formula= Tm[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 270.9804 g 2 species in reaction 1.000 Malonate-- 1.000 Tm+++ -5.4855 -5.6027 -5.7100 -5.8275 -5.9342 -6.0316 -6.1209 -6.2030 * logK= -5.710000 deltaH= -14.000000 kJ Tm-Oxalate+ formula= Tm[(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 256.9536 g 2 species in reaction 1.000 Tm+++ 1.000 Oxalate-- -6.8800 -6.8800 -6.8800 -6.8800 -6.8800 -6.8800 -6.8800 -6.8800 * logK= -6.880000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tm-Phthalate+ formula= Tm[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 333.0512 g 2 species in reaction 1.000 Phthalate-- 1.000 Tm+++ -4.8100 -4.8100 -4.8100 -4.8100 -4.8100 -4.8100 -4.8100 -4.8100 * logK= -4.810000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tm-Propionate++ formula= Tm(CH3CH2COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 242.0053 g 2 species in reaction 1.000 Propionate- 1.000 Tm+++ -2.3035 -2.4373 -2.5600 -2.6943 -2.8163 -2.9276 -3.0296 -3.1234 * logK= -2.560000 deltaH= -16.000000 kJ Tm-Tartrate+ formula= Tm(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 317.0060 g 2 species in reaction 1.000 Tartrate-- 1.000 Tm+++ -5.4700 -5.4700 -5.4700 -5.4700 -5.4700 -5.4700 -5.4700 -5.4700 * logK= -5.470000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TmCl++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 204.3870 g 2 species in reaction 1.000 Cl- 1.000 Tm+++ -.5100 -.5100 -.5100 -.5100 -.5100 -.5100 -.5100 -.5100 * logK= -0.510000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TmEDTA- formula= Tm(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 457.1474 g 2 species in reaction 1.000 Tm+++ 1.000 EDTA---- -22.0067 -21.9406 -21.8800 -21.8137 -21.7535 -21.6985 -21.6481 -21.6018 * logK= -21.880000 deltaH= 7.900000 kJ TmEGTA- formula= Tm(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 545.2534 g 2 species in reaction 1.000 EGTA---- 1.000 Tm+++ -20.3600 -20.3600 -20.3600 -20.3600 -20.3600 -20.3600 -20.3600 -20.3600 * logK= -20.360000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TmF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 187.9324 g 2 species in reaction 1.000 Tm+++ 1.000 F- -4.4097 -4.4933 -4.5700 -4.6539 -4.7302 -4.7997 -4.8635 -4.9221 * logK= -4.570000 deltaH= -10.000000 kJ TmH-(Malonate)2 (aq) formula= TmH[CH2(COO)2]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 374.0347 g 3 species in reaction 2.000 Malonate-- 1.000 H+ 1.000 Tm+++ -12.3142 -12.4581 -12.5900 -12.7343 -12.8655 -12.9851 -13.0948 -13.1956 * logK= -12.590000 deltaH= -17.200000 kJ TmH-DTPA- formula= TmH(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 558.2522 g 3 species in reaction 1.000 H+ 1.000 Tm+++ 1.000 DTPA----- -28.2800 -28.2800 -28.2800 -28.2800 -28.2800 -28.2800 -28.2800 -28.2800 * logK= -28.280000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TmH-Malonate++ formula= TmH[CH2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 271.9883 g 3 species in reaction 1.000 Malonate-- 1.000 H+ 1.000 Tm+++ -7.3929 -7.4592 -7.5200 -7.5865 -7.6470 -7.7022 -7.7527 -7.7992 * logK= -7.520000 deltaH= -7.930000 kJ TmH-Sal++ formula= TmH(OC6H4COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 306.0487 g 3 species in reaction 1.000 H+ 1.000 Tm+++ 1.000 Sal-- -16.6643 -16.3907 -16.1400 -15.8656 -15.6163 -15.3888 -15.1803 -14.9886 * logK= -16.140000 deltaH= 32.700000 kJ TmH2-(Sal)2+ formula= TmH2(OC6H4COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 443.1634 g 3 species in reaction 2.000 H+ 1.000 Tm+++ 2.000 Sal-- -33.1946 -32.6599 -32.1700 -31.6338 -31.1466 -30.7020 -30.2946 -29.9200 * logK= -32.170000 deltaH= 63.900000 kJ TmNO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 230.9389 g 2 species in reaction 1.000 NO3- 1.000 Tm+++ -.3600 -.3600 -.3600 -.3600 -.3600 -.3600 -.3600 -.3600 * logK= -0.360000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TmNTA (aq) formula= Tm[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 357.0505 g 2 species in reaction 1.000 NTA--- 1.000 Tm+++ -13.9964 -13.9931 -13.9900 -13.9866 -13.9836 -13.9808 -13.9783 -13.9759 * logK= -13.990000 deltaH= 0.400000 kJ TmOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 185.9413 g 3 species in reaction -1.000 H+ 1.000 Tm+++ 1.000 H2O 7.3870 7.3870 7.3870 7.3870 7.3870 7.3870 7.3870 7.3870 * logK= 7.387000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TmOH-HEDTA- formula= TmOH(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 461.1790 g 4 species in reaction -1.000 H+ 1.000 Tm+++ 1.000 H2O 1.000 HEDTA--- -8.6100 -8.6100 -8.6100 -8.6100 -8.6100 -8.6100 -8.6100 -8.6100 * logK= -8.610000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TmOHNTA- formula= TmOH[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 374.0578 g 4 species in reaction 1.000 NTA--- -1.000 H+ 1.000 Tm+++ 1.000 H2O -6.2350 -6.2350 -6.2350 -6.2350 -6.2350 -6.2350 -6.2350 -6.2350 * logK= -6.235000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TmSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 264.9956 g 2 species in reaction 1.000 Tm+++ 1.000 SO4-- -3.2693 -3.4367 -3.5900 -3.7578 -3.9103 -4.0495 -4.1770 -4.2942 * logK= -3.590000 deltaH= -20.000000 kJ U(CO3)5------ charge= -6 ion size= 0.0 A b= 0.0000 mole wt.= 538.0750 g 2 species in reaction 1.000 U++++ 5.000 CO3-- -34.3207 -34.1533 -34.0000 -33.8322 -33.6797 -33.5405 -33.4130 -33.2958 * logK= -34.000000 deltaH= 20.000000 kJ U(HPO4)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 429.9876 g 3 species in reaction 1.000 U++++ 2.000 H+ 2.000 PO4--- -46.7190 -46.7785 -46.8330 -46.8927 -46.9469 -46.9964 -47.0418 -47.0835 * logK= -46.833000 deltaH= -7.112800 kJ U(HPO4)3-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 525.9669 g 3 species in reaction 1.000 U++++ 3.000 H+ 3.000 PO4--- -68.0873 -67.8142 -67.5640 -67.2901 -67.0413 -66.8142 -66.6062 -66.4149 * logK= -67.564000 deltaH= 32.635200 kJ U(HPO4)4---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 621.9462 g 3 species in reaction 1.000 U++++ 4.000 H+ 4.000 PO4--- -90.2608 -89.3330 -88.4830 -87.5526 -86.7072 -85.9358 -85.2289 -84.5789 * logK= -88.483000 deltaH= 110.876000 kJ U(NO3)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 362.0388 g 2 species in reaction 1.000 U++++ 2.000 NO3- -2.3000 -2.3000 -2.3000 -2.3000 -2.3000 -2.3000 -2.3000 -2.3000 * logK= -2.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C U(OH)4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 306.0582 g 3 species in reaction 1.000 U++++ -4.000 H+ 4.000 H2O 10.0000 10.0000 10.0000 10.0000 10.0000 10.0000 10.0000 10.0000 * logK= 10.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C U(SCN)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 354.1924 g 2 species in reaction 1.000 U++++ 2.000 SCN- -4.7291 -4.4530 -4.2000 -3.9231 -3.6715 -3.4419 -3.2315 -3.0380 * logK= -4.200000 deltaH= 33.000000 kJ U(SCN)3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 412.2741 g 2 species in reaction 1.000 U++++ 3.000 SCN- -4.0400 -4.0400 -4.0400 -4.0400 -4.0400 -4.0400 -4.0400 -4.0400 * logK= -4.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C U(SO4)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 430.1522 g 2 species in reaction 1.000 U++++ 2.000 SO4-- -9.9857 -10.2593 -10.5100 -10.7844 -11.0337 -11.2612 -11.4697 -11.6614 * logK= -10.510000 deltaH= -32.700000 kJ U-(Lactate)2++ formula= U[CH3CH(OH)COO]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 416.1704 g 2 species in reaction 2.000 Lactate- 1.000 U++++ -9.7300 -9.7300 -9.7300 -9.7300 -9.7300 -9.7300 -9.7300 -9.7300 * logK= -9.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C U-(Lactate)3+ formula= U[CH3CH(OH)COO]3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 505.2411 g 2 species in reaction 3.000 Lactate- 1.000 U++++ -13.6400 -13.6400 -13.6400 -13.6400 -13.6400 -13.6400 -13.6400 -13.6400 * logK= -13.640000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C U-DTPA- formula= U(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 626.3393 g 2 species in reaction 1.000 U++++ 1.000 DTPA----- -34.2000 -34.2000 -34.2000 -34.2000 -34.2000 -34.2000 -34.2000 -34.2000 * logK= -34.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C U-Lactate+++ formula= U[CH3CH(OH)COO]+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 327.0997 g 2 species in reaction 1.000 Lactate- 1.000 U++++ -5.2200 -5.2200 -5.2200 -5.2200 -5.2200 -5.2200 -5.2200 -5.2200 * logK= -5.220000 deltaH= 0.000000 kJ UBr+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 317.9330 g 2 species in reaction 1.000 Br- 1.000 U++++ -1.4600 -1.4600 -1.4600 -1.4600 -1.4600 -1.4600 -1.4600 -1.4600 * logK= -1.460000 deltaH= 0.000000 kJ UCl+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 273.4820 g 2 species in reaction 1.000 Cl- 1.000 U++++ -2.0246 -1.8657 -1.7200 -1.5606 -1.4157 -1.2835 -1.1624 -1.0510 * logK= -1.720000 deltaH= 19.000000 kJ UEDTA (aq) formula= U(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 526.2424 g 2 species in reaction 1.000 U++++ 1.000 EDTA---- -29.1500 -29.1500 -29.1500 -29.1500 -29.1500 -29.1500 -29.1500 -29.1500 * logK= -29.150000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UF+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 257.0274 g 2 species in reaction 1.000 U++++ 1.000 F- -9.5098 -9.4629 -9.4200 -9.3730 -9.3303 -9.2913 -9.2556 -9.2228 * logK= -9.420000 deltaH= 5.600000 kJ UF2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 276.0258 g 2 species in reaction 1.000 U++++ 2.000 F- -16.6161 -16.5868 -16.5600 -16.5306 -16.5039 -16.4796 -16.4573 -16.4368 * logK= -16.560000 deltaH= 3.500000 kJ UF3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 295.0242 g 2 species in reaction 1.000 U++++ 3.000 F- -21.8820 -21.8862 -21.8900 -21.8942 -21.8980 -21.9015 -21.9047 -21.9076 * logK= -21.890000 deltaH= -0.500000 kJ UF4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 314.0226 g 2 species in reaction 1.000 U++++ 4.000 F- -26.4752 -26.4046 -26.3400 -26.2693 -26.2050 -26.1463 -26.0926 -26.0432 * logK= -26.340000 deltaH= 8.430000 kJ UF5- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 333.0210 g 2 species in reaction 1.000 U++++ 5.000 F- -27.4046 -27.5744 -27.7300 -27.9003 -28.0550 -28.1962 -28.3256 -28.4445 * logK= -27.730000 deltaH= -20.292400 kJ UF6-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 352.0194 g 2 species in reaction 1.000 U++++ 6.000 F- -29.5786 -29.6942 -29.8000 -29.9159 -30.0211 -30.1172 -30.2052 -30.2862 * logK= -29.800000 deltaH= -13.807200 kJ UHPO4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 334.0083 g 3 species in reaction 1.000 U++++ 1.000 H+ 1.000 PO4--- -23.9399 -24.2024 -24.4430 -24.7063 -24.9456 -25.1639 -25.3640 -25.5479 * logK= -24.443000 deltaH= -31.380000 kJ UI+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 364.9334 g 2 species in reaction 1.000 U++++ 1.000 I- -1.2500 -1.2500 -1.2500 -1.2500 -1.2500 -1.2500 -1.2500 -1.2500 * logK= -1.250000 deltaH= 0.000000 kJ UNO3+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 300.0339 g 2 species in reaction 1.000 U++++ 1.000 NO3- -1.4700 -1.4700 -1.4700 -1.4700 -1.4700 -1.4700 -1.4700 -1.4700 * logK= -1.470000 deltaH= 0.000000 kJ UO2(CO3)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 390.0462 g 2 species in reaction 1.000 UO2++ 2.000 CO3-- -16.7622 -16.8822 -17.0022 -17.1462 -17.2902 -17.4342 -17.5782 -17.7222 * logK= -16.610000 deltaH= -18.500000 kJ * analytic data = 14.14 .0096 0 0 0 0 0 UO2(CO3)3---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 450.0554 g 2 species in reaction 1.000 UO2++ 3.000 CO3-- -22.4685 -22.1405 -21.8400 -21.5111 -21.2122 -20.9394 -20.6895 -20.4597 * logK= -21.840000 deltaH= 39.200000 kJ UO2(OH)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 304.0424 g 3 species in reaction -2.000 H+ 1.000 UO2++ 2.000 H2O 12.1500 12.1500 12.1500 12.1500 12.1500 12.1500 12.1500 12.1500 * logK= 12.150000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2(OH)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 321.0497 g 3 species in reaction -3.000 H+ 1.000 UO2++ 3.000 H2O 20.2500 20.2500 20.2500 20.2500 20.2500 20.2500 20.2500 20.2500 * logK= 20.250000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2(OH)4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 338.0570 g 3 species in reaction -4.000 H+ 1.000 UO2++ 4.000 H2O 32.4000 32.4000 32.4000 32.4000 32.4000 32.4000 32.4000 32.4000 * logK= 32.400000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2(SCN)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 386.1912 g 2 species in reaction 1.000 UO2++ 2.000 SCN- -1.6994 -1.6475 -1.6000 -1.5480 -1.5007 -1.4576 -1.4180 -1.3817 * logK= -1.600000 deltaH= 6.200000 kJ UO2(SCN)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 444.2729 g 2 species in reaction 1.000 UO2++ 3.000 SCN- -1.5603 -1.4767 -1.4000 -1.3161 -1.2398 -1.1703 -1.1065 -1.0479 * logK= -1.400000 deltaH= 10.000000 kJ UO2(SO4)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 462.1510 g 2 species in reaction 1.000 UO2++ 2.000 SO4-- -3.9105 -4.0338 -4.2008 -4.4589 -4.7799 -5.1638 -5.6108 -6.1206 * logK= -4.140000 deltaH= -35.100000 kJ * analytic data = 12.13 -.068297 0 0 .00013987 0 0 UO2-(Acetate)2 (aq) formula= UO2(CH3COO)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 388.1168 g 2 species in reaction 2.000 Acetate- 1.000 UO2++ -4.7514 -4.9020 -5.0400 -5.1910 -5.3283 -5.4535 -5.5683 -5.6738 * logK= -5.040000 deltaH= -18.000000 kJ UO2-(Acetate)3- formula= UO2(CH3COO)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 447.1613 g 2 species in reaction 3.000 Acetate- 1.000 UO2++ -6.8035 -6.9373 -7.0600 -7.1943 -7.3163 -7.4276 -7.5296 -7.6234 * logK= -7.060000 deltaH= -16.000000 kJ UO2-(Butyrate)2 (aq) formula= UO2[CH3CH2CH2COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 444.2240 g 2 species in reaction 1.000 UO2++ 2.000 Butyrate- -5.4200 -5.4200 -5.4200 -5.4200 -5.4200 -5.4200 -5.4200 -5.4200 * logK= -5.420000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-(Butyrate)3- formula= UO2[CH3CH2CH2COO]3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 531.3221 g 2 species in reaction 1.000 UO2++ 3.000 Butyrate- -7.5200 -7.5200 -7.5200 -7.5200 -7.5200 -7.5200 -7.5200 -7.5200 * logK= -7.520000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-(Formate)2 (aq) formula= UO2[HCOO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 360.0632 g 2 species in reaction 1.000 UO2++ 2.000 Formate- -3.7600 -3.7600 -3.7600 -3.7600 -3.7600 -3.7600 -3.7600 -3.7600 * logK= -3.760000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-(Formate)3- formula= UO2[HCOO]3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 405.0809 g 2 species in reaction 1.000 UO2++ 3.000 Formate- -4.1300 -4.1300 -4.1300 -4.1300 -4.1300 -4.1300 -4.1300 -4.1300 * logK= -4.130000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-(iButyrate)2 (aq) formula= UO2[(CH3)2CHCOO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 444.2240 g 2 species in reaction 2.000 iButyrate- 1.000 UO2++ -5.5800 -5.5800 -5.5800 -5.5800 -5.5800 -5.5800 -5.5800 -5.5800 * logK= -5.580000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-(iButyrate)3- formula= UO2[(CH3)2CHCOO]3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 531.3221 g 2 species in reaction 3.000 iButyrate- 1.000 UO2++ -7.8100 -7.8100 -7.8100 -7.8100 -7.8100 -7.8100 -7.8100 -7.8100 * logK= -7.810000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-(Lactate)2 (aq) formula= UO2[CH3CH(OH)COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 448.1692 g 2 species in reaction 2.000 Lactate- 1.000 UO2++ -5.1600 -5.1600 -5.1600 -5.1600 -5.1600 -5.1600 -5.1600 -5.1600 * logK= -5.160000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-(Lactate)3- formula= UO2[CH3CH(OH)COO]3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 537.2399 g 2 species in reaction 3.000 Lactate- 1.000 UO2++ -6.3100 -6.3100 -6.3100 -6.3100 -6.3100 -6.3100 -6.3100 -6.3100 * logK= -6.310000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-(Malonate)2-- formula= UO2[CH2(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 474.1206 g 2 species in reaction 2.000 Malonate-- 1.000 UO2++ -10.2136 -10.3057 -10.3900 -10.4823 -10.5662 -10.6427 -10.7128 -10.7773 * logK= -10.390000 deltaH= -11.000000 kJ UO2-(Oxalate)2-- formula= UO2[(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 446.0670 g 2 species in reaction 1.000 UO2++ 2.000 Oxalate-- -11.2500 -11.2500 -11.2500 -11.2500 -11.2500 -11.2500 -11.2500 -11.2500 * logK= -11.250000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-(Phthalate)2-- formula= UO2[C6H4(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 598.2622 g 2 species in reaction 2.000 Phthalate-- 1.000 UO2++ -8.5800 -8.5800 -8.5800 -8.5800 -8.5800 -8.5800 -8.5800 -8.5800 * logK= -8.580000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-(Propionate)2 (aq) formula= UO2(CH3CH2COO)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 416.1704 g 2 species in reaction 2.000 Propionate- 1.000 UO2++ -5.3900 -5.3900 -5.3900 -5.3900 -5.3900 -5.3900 -5.3900 -5.3900 * logK= -5.390000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-(Propionate)3- formula= UO2(CH3CH2COO)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 489.2417 g 2 species in reaction 3.000 Propionate- 1.000 UO2++ -7.1600 -7.1600 -7.1600 -7.1600 -7.1600 -7.1600 -7.1600 -7.1600 * logK= -7.160000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-(Propionate)4-- formula= UO2(CH3CH2COO)4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 562.3130 g 2 species in reaction 4.000 Propionate- 1.000 UO2++ -8.7200 -8.7200 -8.7200 -8.7200 -8.7200 -8.7200 -8.7200 -8.7200 * logK= -8.720000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-(Sal)2-- formula= UO2(OC6H4COO)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 542.2414 g 2 species in reaction 1.000 UO2++ 2.000 Sal-- -23.4000 -23.4000 -23.4000 -23.4000 -23.4000 -23.4000 -23.4000 -23.4000 * logK= -23.400000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-Acetate+ formula= UO2(CH3COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 329.0723 g 2 species in reaction 1.000 Acetate- 1.000 UO2++ -2.7733 -2.9490 -3.1100 -3.2862 -3.4463 -3.5924 -3.7263 -3.8494 * logK= -3.110000 deltaH= -21.000000 kJ UO2-Benzoate+ formula= UO2(C6H5COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 391.1431 g 2 species in reaction 1.000 UO2++ 1.000 Benzoate- -2.3497 -2.4333 -2.5100 -2.5939 -2.6702 -2.7397 -2.8035 -2.8621 * logK= -2.510000 deltaH= -10.000000 kJ UO2-Butyrate+ formula= UO2[CH3CH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 357.1259 g 2 species in reaction 1.000 UO2++ 1.000 Butyrate- -2.9900 -2.9900 -2.9900 -2.9900 -2.9900 -2.9900 -2.9900 -2.9900 * logK= -2.990000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-Citrate- formula= UO2[C3H5O(COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 459.1291 g 2 species in reaction 1.000 UO2++ 1.000 Citrate--- -8.6900 -8.6900 -8.6900 -8.6900 -8.6900 -8.6900 -8.6900 -8.6900 * logK= -8.690000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-Formate+ formula= UO2[HCOO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 315.0455 g 2 species in reaction 1.000 UO2++ 1.000 Formate- -2.2700 -2.2700 -2.2700 -2.2700 -2.2700 -2.2700 -2.2700 -2.2700 * logK= -2.270000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-Glutarate (aq) formula= UO2[C3H6(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 400.1278 g 2 species in reaction 1.000 UO2++ 1.000 Glutarate-- -4.6600 -4.6600 -4.6600 -4.6600 -4.6600 -4.6600 -4.6600 -4.6600 * logK= -4.660000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-iButyrate+ formula= UO2[(CH3)2CHCOO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 357.1259 g 2 species in reaction 1.000 iButyrate- 1.000 UO2++ -2.8900 -2.8900 -2.8900 -2.8900 -2.8900 -2.8900 -2.8900 -2.8900 * logK= -2.890000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-Lactate+ formula= UO2[CH3CH(OH)COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 359.0985 g 2 species in reaction 1.000 Lactate- 1.000 UO2++ -3.1300 -3.1300 -3.1300 -3.1300 -3.1300 -3.1300 -3.1300 -3.1300 * logK= -3.130000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-Malonate (aq) formula= UO2[CH2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 372.0742 g 2 species in reaction 1.000 Malonate-- 1.000 UO2++ -6.4205 -6.4933 -6.5600 -6.6330 -6.6993 -6.7599 -6.8153 -6.8663 * logK= -6.560000 deltaH= -8.700000 kJ UO2-Oxalate (aq) formula= UO2[(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 358.0474 g 2 species in reaction 1.000 UO2++ 1.000 Oxalate-- -7.2200 -7.2200 -7.2200 -7.2200 -7.2200 -7.2200 -7.2200 -7.2200 * logK= -7.220000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-Phthalate (aq) formula= UO2[C6H4(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 434.1450 g 2 species in reaction 1.000 Phthalate-- 1.000 UO2++ -5.6600 -5.6600 -5.6600 -5.6600 -5.6600 -5.6600 -5.6600 -5.6600 * logK= -5.660000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-Propionate+ formula= UO2(CH3CH2COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 343.0991 g 2 species in reaction 1.000 Propionate- 1.000 UO2++ -2.9400 -2.9400 -2.9400 -2.9400 -2.9400 -2.9400 -2.9400 -2.9400 * logK= -2.940000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-Sal (aq) formula= UO2(OC6H4COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 406.1346 g 2 species in reaction 1.000 UO2++ 1.000 Sal-- -13.1300 -13.1300 -13.1300 -13.1300 -13.1300 -13.1300 -13.1300 -13.1300 * logK= -13.130000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2-Succinate (aq) formula= UO2[(CH2)2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 386.1010 g 2 species in reaction 1.000 UO2++ 1.000 Succinate-- -4.0733 -4.2490 -4.4100 -4.5862 -4.7463 -4.8924 -5.0263 -5.1494 * logK= -4.410000 deltaH= -21.000000 kJ UO2Br+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 349.9318 g 2 species in reaction 1.000 Br- 1.000 UO2++ -.2000 -.2000 -.2000 -.2000 -.2000 -.2000 -.2000 -.2000 * logK= -0.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2Cl+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 305.4808 g 2 species in reaction 1.000 Cl- 1.000 UO2++ -.0417 -.1087 -.1700 -.2371 -.2981 -.3538 -.4048 -.4517 * logK= -0.170000 deltaH= -8.000000 kJ UO2Cl2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 340.9338 g 2 species in reaction 2.000 Cl- 1.000 UO2++ 1.3405 1.2150 1.1000 .9741 .8598 .7554 .6598 .5718 * logK= 1.100000 deltaH= -15.000000 kJ UO2CO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 330.0370 g 2 species in reaction 1.000 UO2++ 1.000 CO3-- -10.1037 -10.0829 -10.0999 -10.1637 -10.2688 -10.4097 -10.5820 -10.7818 * logK= -9.940000 deltaH= -5.000000 kJ * analytic data = -9.56 .03434 2809 0 0 0 0 UO2F+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 289.0262 g 2 species in reaction 1.000 UO2++ 1.000 F- -5.1327 -5.1470 -5.1600 -5.1743 -5.1872 -5.1991 -5.2099 -5.2199 * logK= -5.160000 deltaH= -1.700000 kJ UO2F2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 308.0246 g 2 species in reaction 1.000 UO2++ 2.000 F- -8.7963 -8.8139 -8.8300 -8.8476 -8.8636 -8.8782 -8.8916 -8.9039 * logK= -8.830000 deltaH= -2.100000 kJ UO2F3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 327.0230 g 2 species in reaction 1.000 UO2++ 3.000 F- -10.8623 -10.8820 -10.9000 -10.9197 -10.9376 -10.9540 -10.9690 -10.9827 * logK= -10.900000 deltaH= -2.350000 kJ UO2F4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 346.0214 g 2 species in reaction 1.000 UO2++ 4.000 F- -11.8354 -11.8378 -11.8400 -11.8424 -11.8446 -11.8467 -11.8485 -11.8502 * logK= -11.840000 deltaH= -0.290000 kJ UO2H-(Succinate)2- formula= UO2H[(CH2)2(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 503.1821 g 3 species in reaction 1.000 H+ 1.000 UO2++ 2.000 Succinate-- -12.5679 -12.6682 -12.7600 -12.8605 -12.9519 -13.0352 -13.1116 -13.1818 * logK= -12.760000 deltaH= -11.980000 kJ UO2H-Glutamate+ formula= UO2H(C5H7NO4)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 416.1503 g 3 species in reaction 1.000 Glutamate-- 1.000 H+ 1.000 UO2++ -13.0600 -13.0600 -13.0600 -13.0600 -13.0600 -13.0600 -13.0600 -13.0600 * logK= -13.060000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2H-Glutarate+ formula= UO2H[C3H6(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 401.1357 g 3 species in reaction 1.000 H+ 1.000 UO2++ 1.000 Glutarate-- -8.2600 -8.2600 -8.2600 -8.2600 -8.2600 -8.2600 -8.2600 -8.2600 * logK= -8.260000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2H-Glycine++ formula= UO2H[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 345.0948 g 3 species in reaction 1.000 Glycine- 1.000 H+ 1.000 UO2++ -11.1519 -11.1770 -11.2000 -11.2252 -11.2480 -11.2689 -11.2880 -11.3056 * logK= -11.200000 deltaH= -3.000000 kJ UO2H-Sal+ formula= UO2H(OC6H4COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 407.1425 g 3 species in reaction 1.000 H+ 1.000 UO2++ 1.000 Sal-- -15.7400 -15.7400 -15.7400 -15.7400 -15.7400 -15.7400 -15.7400 -15.7400 * logK= -15.740000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2H-Succinate+ formula= UO2H[(CH2)2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 387.1089 g 3 species in reaction 1.000 H+ 1.000 UO2++ 1.000 Succinate-- -8.1949 -8.2550 -8.3100 -8.3703 -8.4250 -8.4750 -8.5207 -8.5628 * logK= -8.310000 deltaH= -7.180000 kJ UO2H2-(Glutarate)2 (aq) formula= UO2H2[C3H6(COO)2]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 532.2436 g 3 species in reaction 2.000 H+ 1.000 UO2++ 2.000 Glutarate-- -15.1300 -15.1300 -15.1300 -15.1300 -15.1300 -15.1300 -15.1300 -15.1300 * logK= -15.130000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2H2PO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 367.0150 g 3 species in reaction 2.000 H+ 1.000 UO2++ 1.000 PO4--- -20.9412 -20.8117 -20.6930 -20.5631 -20.4451 -20.3373 -20.2387 -20.1479 * logK= -20.693000 deltaH= 15.480800 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2H3PO4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 368.0229 g 3 species in reaction 3.000 H+ 1.000 UO2++ 1.000 PO4--- -22.4810 -22.4810 -22.4810 -22.4810 -22.4810 -22.4810 -22.4810 -22.4810 * logK= -22.481000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2H3SiO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 365.1346 g 3 species in reaction -1.000 H+ 1.000 UO2++ 1.000 H4SiO4 1.9111 1.9111 1.9111 1.9111 1.9111 1.9111 1.9111 1.9111 * logK= 1.911100 deltaH= 0.000000 kJ UO2HEDTA- formula= UO2H(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 559.2491 g 3 species in reaction 1.000 H+ 1.000 UO2++ 1.000 EDTA---- -19.6300 -19.6300 -19.6300 -19.6300 -19.6300 -19.6300 -19.6300 -19.6300 * logK= -19.630000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2HPO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 366.0071 g 3 species in reaction 1.000 H+ 1.000 UO2++ 1.000 PO4--- -19.7559 -19.6824 -19.6150 -19.5413 -19.4743 -19.4131 -19.3571 -19.3056 * logK= -19.615000 deltaH= 8.786400 kJ UO2NO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 332.0327 g 2 species in reaction 1.000 NO3- 1.000 UO2++ -.4924 -.3920 -.3000 -.1993 -.1078 -.0243 .0522 .1225 * logK= -0.300000 deltaH= 12.000000 kJ UO2NTA- formula= UO2[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 458.1443 g 2 species in reaction 1.000 NTA--- 1.000 UO2++ -10.7800 -10.7800 -10.7800 -10.7800 -10.7800 -10.7800 -10.7800 -10.7800 * logK= -10.780000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2OH+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 287.0351 g 3 species in reaction -1.000 H+ 1.000 UO2++ 1.000 H2O 5.2644 5.2569 5.2500 5.2424 5.2356 5.2293 5.2236 5.2183 * logK= 5.250000 deltaH= -0.900000 kJ UO2PO4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 364.9992 g 2 species in reaction 1.000 UO2++ 1.000 PO4--- -13.2300 -13.2300 -13.2300 -13.2300 -13.2300 -13.2300 -13.2300 -13.2300 * logK= -13.230000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2S2O3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 382.1540 g 2 species in reaction 1.000 S2O3-- 1.000 UO2++ -2.8000 -2.8000 -2.8000 -2.8000 -2.8000 -2.8000 -2.8000 -2.8000 * logK= -2.800000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2SCN+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 328.1095 g 2 species in reaction 1.000 UO2++ 1.000 SCN- -1.3581 -1.3330 -1.3100 -1.2848 -1.2620 -1.2411 -1.2220 -1.2044 * logK= -1.310000 deltaH= 3.000000 kJ UO2SO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 350.0900 g 2 species in reaction 1.000 UO2++ 1.000 SO3-- -6.7000 -6.7000 -6.7000 -6.7000 -6.7000 -6.7000 -6.7000 -6.7000 * logK= -6.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2SO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 366.0894 g 2 species in reaction 1.000 UO2++ 1.000 SO4-- -2.4893 -2.5832 -2.7208 -2.9439 -3.2301 -3.5794 -3.9919 -4.4674 * logK= -3.150000 deltaH= -19.500000 kJ * analytic data = 11.384 -.07088 0 0 .000140277 0 0 UOH+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 255.0363 g 3 species in reaction 1.000 U++++ -1.000 H+ 1.000 H2O 1.3752 1.0190 .6627 .2352 -.1923 -.6198 -1.0473 -1.4748 * logK= 0.597000 deltaH= -47.810000 kJ * analytic data = -9.16 .0285 0 0 0 0 0 UOH-DTPA-- formula= UOH(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 643.3466 g 4 species in reaction 1.000 U++++ -1.000 H+ 1.000 DTPA----- 1.000 H2O -27.6800 -27.6800 -27.6800 -27.6800 -27.6800 -27.6800 -27.6800 -27.6800 * logK= -27.680000 deltaH= 0.000000 kJ UOHEDTA- formula= UOH(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 543.2497 g 4 species in reaction 1.000 U++++ -1.000 H+ 1.000 EDTA---- 1.000 H2O 5.8400 5.8400 5.8400 5.8400 5.8400 5.8400 5.8400 5.8400 * logK= 5.840000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C USCN+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 296.1107 g 2 species in reaction 1.000 U++++ 1.000 SCN- -3.3708 -3.1617 -2.9700 -2.7602 -2.5696 -2.3957 -2.2363 -2.0897 * logK= -2.970000 deltaH= 25.000000 kJ USO4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 334.0906 g 2 species in reaction 1.000 U++++ 1.000 SO4-- -6.4517 -6.5187 -6.5800 -6.6471 -6.7081 -6.7638 -6.8148 -6.8617 * logK= -6.580000 deltaH= -8.000000 kJ V(NTA)2--- formula= V[N(CH2COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 427.1745 g 2 species in reaction 2.000 NTA--- 1.000 V+++ -25.0100 -25.0100 -25.0100 -25.0100 -25.0100 -25.0100 -25.0100 -25.0100 * logK= -25.010000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C V(OH)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 84.9561 g 3 species in reaction -2.000 H+ 2.000 H2O 1.000 V+++ 6.9840 6.9840 6.9840 6.9840 6.9840 6.9840 6.9840 6.9840 * logK= 6.984000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C V(OH)3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 101.9634 g 3 species in reaction 1.000 VO++ -1.000 H+ 2.000 H2O 5.6970 5.6970 5.6970 5.6970 5.6970 5.6970 5.6970 5.6970 * logK= 5.697000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C V10O28------ charge= -6 ion size= 0.0 A b= 0.0000 mole wt.= 957.3982 g 3 species in reaction 14.000 H+ -12.000 H2O 10.000 HVO4-- -134.1400 -134.1400 -134.1400 -134.1400 -134.1400 -134.1400 -134.1400 -134.1400 * logK= -134.140000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C V2(OH)2++++ charge= 4 ion size= 0.0 A b= 0.0000 mole wt.= 135.8976 g 3 species in reaction -2.000 H+ 2.000 H2O 2.000 V+++ 3.7940 3.7940 3.7940 3.7940 3.7940 3.7940 3.7940 3.7940 * logK= 3.794000 deltaH= 0.000000 kJ V2O7---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 213.8788 g 2 species in reaction -1.000 H2O 2.000 HVO4-- .3464 .7397 1.1000 1.4944 1.8527 2.1798 2.4794 2.7549 * logK= 1.100000 deltaH= 47.000000 kJ V4O12---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 395.7588 g 3 species in reaction 4.000 H+ -4.000 H2O 4.000 HVO4-- -44.5722 -43.5429 -42.6000 -41.5678 -40.6300 -39.7742 -38.9901 -38.2690 * logK= -42.600000 deltaH= 123.000000 kJ V4O13------ charge= -6 ion size= 0.0 A b= 0.0000 mole wt.= 411.7582 g 3 species in reaction 2.000 H+ -3.000 H2O 4.000 HVO4-- -21.8648 -21.1786 -20.5500 -19.8619 -19.2367 -18.6662 -18.1434 -17.6627 * logK= -20.550000 deltaH= 82.000000 kJ V5O15----- charge= -5 ion size= 0.0 A b= 0.0000 mole wt.= 494.6985 g 3 species in reaction 5.000 H+ -5.000 H2O 5.000 HVO4-- -54.5213 -53.2159 -52.0200 -50.7109 -49.5215 -48.4361 -47.4416 -46.5271 * logK= -52.020000 deltaH= 156.000000 kJ V6O18------ charge= -6 ion size= 0.0 A b= 0.0000 mole wt.= 593.6382 g 3 species in reaction 6.000 H+ -6.000 H2O 6.000 HVO4-- -60.7900 -60.7900 -60.7900 -60.7900 -60.7900 -60.7900 -60.7900 -60.7900 * logK= -60.790000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VEDTA-- formula= V(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 339.1549 g 2 species in reaction 1.000 V++ 1.000 EDTA---- -14.4100 -14.4100 -14.4100 -14.4100 -14.4100 -14.4100 -14.4100 -14.4100 * logK= -14.410000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 69.9399 g 2 species in reaction 1.000 F- 1.000 V+++ -5.6100 -5.6100 -5.6100 -5.6100 -5.6100 -5.6100 -5.6100 -5.6100 * logK= -5.610000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VHEDTA- formula= VH(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 340.1628 g 3 species in reaction 1.000 V++ 1.000 H+ 1.000 EDTA---- -17.7000 -17.7000 -17.7000 -17.7000 -17.7000 -17.7000 -17.7000 -17.7000 * logK= -17.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VNTA (aq) formula= V[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 239.0580 g 2 species in reaction 1.000 NTA--- 1.000 V+++ -15.3300 -15.3300 -15.3300 -15.3300 -15.3300 -15.3300 -15.3300 -15.3300 * logK= -15.330000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO(OH)2-Glycine- formula= VO(OH)2[NH2CH2COO]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 175.0146 g 4 species in reaction 1.000 Glycine- 1.000 VO++ -2.000 H+ 2.000 H2O 6.0900 6.0900 6.0900 6.0900 6.0900 6.0900 6.0900 6.0900 * logK= 6.090000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO(SCN)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 183.1043 g 2 species in reaction 1.000 VO++ 2.000 SCN- -3.7441 -3.7107 -3.6800 -3.6464 -3.6159 -3.5881 -3.5626 -3.5392 * logK= -3.680000 deltaH= 4.000000 kJ VO-(Acetate)2 (aq) formula= VO(CH3COO)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 185.0299 g 2 species in reaction 2.000 Acetate- 1.000 VO++ -3.8654 -4.0243 -4.1700 -4.3294 -4.4743 -4.6065 -4.7276 -4.8390 * logK= -4.170000 deltaH= -19.000000 kJ VO-(Butyrate)2 (aq) formula= VO[CH3CH2CH2COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 241.1371 g 2 species in reaction 1.000 VO++ 2.000 Butyrate- -4.0800 -4.0800 -4.0800 -4.0800 -4.0800 -4.0800 -4.0800 -4.0800 * logK= -4.080000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO-(DTPA)2-------- formula= VO(C14H18N3O10)2-------- charge= -8 ion size= 0.0 A b= 0.0000 mole wt.= 843.5615 g 2 species in reaction 1.000 VO++ 2.000 DTPA----- -21.9500 -21.9500 -21.9500 -21.9500 -21.9500 -21.9500 -21.9500 -21.9500 * logK= -21.950000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO-(Formate)2 (aq) formula= VO[HCOO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 156.9763 g 2 species in reaction 1.000 VO++ 2.000 Formate- -3.4800 -3.4800 -3.4800 -3.4800 -3.4800 -3.4800 -3.4800 -3.4800 * logK= -3.480000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO-(Glycine)2 (aq) formula= VO[NH2CH2COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 215.0591 g 2 species in reaction 2.000 Glycine- 1.000 VO++ -12.5300 -12.5300 -12.5300 -12.5300 -12.5300 -12.5300 -12.5300 -12.5300 * logK= -12.530000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO-(iButyrate)2 (aq) formula= VO[(CH3)2CHCOO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 241.1371 g 2 species in reaction 2.000 iButyrate- 1.000 VO++ -4.1000 -4.1000 -4.1000 -4.1000 -4.1000 -4.1000 -4.1000 -4.1000 * logK= -4.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO-(Lactate)2 (aq) formula= VO[CH3CH(OH)COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 245.0823 g 2 species in reaction 2.000 Lactate- 1.000 VO++ -5.9300 -5.9300 -5.9300 -5.9300 -5.9300 -5.9300 -5.9300 -5.9300 * logK= -5.930000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO-(Malonate)2-- formula= VO[CH2(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 271.0337 g 2 species in reaction 2.000 Malonate-- 1.000 VO++ -10.3000 -10.3000 -10.3000 -10.3000 -10.3000 -10.3000 -10.3000 -10.3000 * logK= -10.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO-(Oxalate)2-- formula= VO[(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 242.9801 g 2 species in reaction 1.000 VO++ 2.000 Oxalate-- -12.6000 -12.6000 -12.6000 -12.6000 -12.6000 -12.6000 -12.6000 -12.6000 * logK= -12.600000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO-(Phthalate)2-- formula= VO[C6H4(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 395.1753 g 2 species in reaction 1.000 VO++ 2.000 Phthalate-- -7.2400 -7.2400 -7.2400 -7.2400 -7.2400 -7.2400 -7.2400 -7.2400 * logK= -7.240000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO-(Propionate)2 (aq) formula= VO(CH3CH2COO)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 213.0835 g 2 species in reaction 2.000 Propionate- 1.000 VO++ -4.1700 -4.1700 -4.1700 -4.1700 -4.1700 -4.1700 -4.1700 -4.1700 * logK= -4.170000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO-(Sal)2-- formula= VO(OC6H4COO)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 339.1545 g 2 species in reaction 1.000 VO++ 2.000 Sal-- -21.0200 -21.0200 -21.0200 -21.0200 -21.0200 -21.0200 -21.0200 -21.0200 * logK= -21.020000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO-Acetate+ formula= VO(CH3COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 125.9854 g 2 species in reaction 1.000 Acetate- 1.000 VO++ -2.2197 -2.3033 -2.3800 -2.4639 -2.5402 -2.6097 -2.6735 -2.7321 * logK= -2.380000 deltaH= -10.000000 kJ VO-Butyrate+ formula= VO[CH3CH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 154.0390 g 2 species in reaction 1.000 VO++ 1.000 Butyrate- -2.3500 -2.3500 -2.3500 -2.3500 -2.3500 -2.3500 -2.3500 -2.3500 * logK= -2.350000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO-DTPA--- formula= VO(C14H18N3O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 455.2512 g 2 species in reaction 1.000 VO++ 1.000 DTPA----- -19.0100 -19.0100 -19.0100 -19.0100 -19.0100 -19.0100 -19.0100 -19.0100 * logK= -19.010000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO-Formate+ formula= VO[HCOO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 111.9586 g 2 species in reaction 1.000 VO++ 1.000 Formate- -2.3900 -2.3900 -2.3900 -2.3900 -2.3900 -2.3900 -2.3900 -2.3900 * logK= -2.390000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO-Glycine+ formula= VO[NH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 141.0000 g 2 species in reaction 1.000 Glycine- 1.000 VO++ -6.9200 -6.9200 -6.9200 -6.9200 -6.9200 -6.9200 -6.9200 -6.9200 * logK= -6.920000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO-HEDTA- formula= VO(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 342.1786 g 2 species in reaction 1.000 VO++ 1.000 HEDTA--- -18.3900 -18.3900 -18.3900 -18.3900 -18.3900 -18.3900 -18.3900 -18.3900 * logK= -18.390000 deltaH= 0.000000 kJ VO-iButyrate+ formula= VO[(CH3)2CHCOO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 154.0390 g 2 species in reaction 1.000 iButyrate- 1.000 VO++ -2.3800 -2.3800 -2.3800 -2.3800 -2.3800 -2.3800 -2.3800 -2.3800 * logK= -2.380000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO-Lactate+ formula= VO[CH3CH(OH)COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 156.0116 g 2 species in reaction 1.000 Lactate- 1.000 VO++ -3.3000 -3.3000 -3.3000 -3.3000 -3.3000 -3.3000 -3.3000 -3.3000 * logK= -3.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO-Malonate (aq) formula= VO[CH2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 168.9873 g 2 species in reaction 1.000 Malonate-- 1.000 VO++ -6.5100 -6.5100 -6.5100 -6.5100 -6.5100 -6.5100 -6.5100 -6.5100 * logK= -6.510000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO-Oxalate (aq) formula= VO[(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 154.9605 g 2 species in reaction 1.000 VO++ 1.000 Oxalate-- -7.3700 -7.3700 -7.3700 -7.3700 -7.3700 -7.3700 -7.3700 -7.3700 * logK= -7.370000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO-Phthalate (aq) formula= VO[C6H4(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 231.0581 g 2 species in reaction 1.000 VO++ 1.000 Phthalate-- -4.8200 -4.8200 -4.8200 -4.8200 -4.8200 -4.8200 -4.8200 -4.8200 * logK= -4.820000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO-Propionate+ formula= VO(CH3CH2COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 140.0122 g 2 species in reaction 1.000 Propionate- 1.000 VO++ -2.3200 -2.3200 -2.3200 -2.3200 -2.3200 -2.3200 -2.3200 -2.3200 * logK= -2.320000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO-Sal (aq) formula= VO(OC6H4COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 203.0477 g 2 species in reaction 1.000 VO++ 1.000 Sal-- -13.8816 -13.7920 -13.7100 -13.6202 -13.5386 -13.4642 -13.3960 -13.3332 * logK= -13.710000 deltaH= 10.700000 kJ VO-Tartrate (aq) formula= VO(C4H4O6) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 215.0129 g 2 species in reaction 1.000 Tartrate-- 1.000 VO++ -4.7700 -4.7700 -4.7700 -4.7700 -4.7700 -4.7700 -4.7700 -4.7700 * logK= -4.770000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 82.9403 g 3 species in reaction 3.000 H+ -2.000 H2O 1.000 HVO4-- -16.7558 -16.3040 -15.8900 -15.4369 -15.0251 -14.6494 -14.3052 -13.9886 * logK= -15.890000 deltaH= 54.000000 kJ VO2-(Malonate)2--- formula= VO2[CH2(COO)2]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 287.0331 g 4 species in reaction 2.000 Malonate-- 3.000 H+ -2.000 H2O 1.000 HVO4-- -22.4200 -22.4200 -22.4200 -22.4200 -22.4200 -22.4200 -22.4200 -22.4200 * logK= -22.420000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO2-(Oxalate)2--- formula= VO2[(COO)2]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 258.9795 g 4 species in reaction 3.000 H+ 2.000 Oxalate-- -2.000 H2O 1.000 HVO4-- -26.8900 -26.8900 -26.8900 -26.8900 -26.8900 -26.8900 -26.8900 -26.8900 * logK= -26.890000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO2-Acetate (aq) formula= VO2(CH3COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 141.9848 g 4 species in reaction 1.000 Acetate- 3.000 H+ -2.000 H2O 1.000 HVO4-- -18.4700 -18.4700 -18.4700 -18.4700 -18.4700 -18.4700 -18.4700 -18.4700 * logK= -18.470000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO2-Formate (aq) formula= VO2[HCOO] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 127.9580 g 4 species in reaction 3.000 H+ 1.000 Formate- -2.000 H2O 1.000 HVO4-- -17.5500 -17.5500 -17.5500 -17.5500 -17.5500 -17.5500 -17.5500 -17.5500 * logK= -17.550000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO2-Malonate- formula= VO2[CH2(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 184.9867 g 4 species in reaction 1.000 Malonate-- 3.000 H+ -2.000 H2O 1.000 HVO4-- -20.8600 -20.8600 -20.8600 -20.8600 -20.8600 -20.8600 -20.8600 -20.8600 * logK= -20.860000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO2-Oxalate- formula= VO2[(COO)2]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 170.9599 g 4 species in reaction 3.000 H+ 1.000 Oxalate-- -2.000 H2O 1.000 HVO4-- -22.5400 -22.5400 -22.5400 -22.5400 -22.5400 -22.5400 -22.5400 -22.5400 * logK= -22.540000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO2F (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 101.9387 g 4 species in reaction 3.000 H+ 1.000 F- -2.000 H2O 1.000 HVO4-- -19.2400 -19.2400 -19.2400 -19.2400 -19.2400 -19.2400 -19.2400 -19.2400 * logK= -19.240000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO2F2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 120.9371 g 4 species in reaction 3.000 H+ 2.000 F- -2.000 H2O 1.000 HVO4-- -21.6800 -21.6800 -21.6800 -21.6800 -21.6800 -21.6800 -21.6800 -21.6800 * logK= -21.680000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO2F3-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 139.9355 g 4 species in reaction 3.000 H+ 3.000 F- -2.000 H2O 1.000 HVO4-- -22.6500 -22.6500 -22.6500 -22.6500 -22.6500 -22.6500 -22.6500 -22.6500 * logK= -22.650000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO2F4--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 158.9339 g 4 species in reaction 3.000 H+ 4.000 F- -2.000 H2O 1.000 HVO4-- -22.4800 -22.4800 -22.4800 -22.4800 -22.4800 -22.4800 -22.4800 -22.4800 * logK= -22.480000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO2HPO4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 178.9196 g 4 species in reaction 4.000 H+ 1.000 PO4--- -2.000 H2O 1.000 HVO4-- -33.2700 -33.2700 -33.2700 -33.2700 -33.2700 -33.2700 -33.2700 -33.2700 * logK= -33.270000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO2NO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 144.9452 g 4 species in reaction 1.000 NO3- 3.000 H+ -2.000 H2O 1.000 HVO4-- -15.6900 -15.6900 -15.6900 -15.6900 -15.6900 -15.6900 -15.6900 -15.6900 * logK= -15.690000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO2SO4- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 179.0019 g 4 species in reaction 3.000 H+ -2.000 H2O 1.000 HVO4-- 1.000 SO4-- -17.2700 -17.2700 -17.2700 -17.2700 -17.2700 -17.2700 -17.2700 -17.2700 * logK= -17.270000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO4--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 114.9391 g 2 species in reaction -1.000 H+ 1.000 HVO4-- 13.8748 13.6740 13.4900 13.2886 13.1056 12.9386 12.7856 12.6449 * logK= 13.490000 deltaH= -24.000000 kJ VOCl+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 102.3939 g 2 species in reaction 1.000 Cl- 1.000 VO++ -.4500 -.4500 -.4500 -.4500 -.4500 -.4500 -.4500 -.4500 * logK= -0.450000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VOCO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 126.9501 g 2 species in reaction 1.000 VO++ 1.000 CO3-- -3.2503 -3.3650 -3.4700 -3.5850 -3.6894 -3.7847 -3.8721 -3.9524 * logK= -3.470000 deltaH= -13.700000 kJ VOEDTA-- formula= VO(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 355.1543 g 2 species in reaction 1.000 VO++ 1.000 EDTA---- -20.5703 -20.4867 -20.4100 -20.3261 -20.2498 -20.1803 -20.1165 -20.0579 * logK= -20.410000 deltaH= 10.000000 kJ VOEGTA-- formula= VO(C14H20N2O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 443.2603 g 2 species in reaction 1.000 EGTA---- 1.000 VO++ -16.1800 -16.1800 -16.1800 -16.1800 -16.1800 -16.1800 -16.1800 -16.1800 * logK= -16.180000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VOF+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 85.9393 g 2 species in reaction 1.000 VO++ 1.000 F- -3.6433 -3.7094 -3.7700 -3.8363 -3.8965 -3.9515 -4.0019 -4.0482 * logK= -3.770000 deltaH= -7.900000 kJ VOF2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 104.9377 g 2 species in reaction 1.000 VO++ 2.000 F- -6.2555 -6.3727 -6.4800 -6.5975 -6.7042 -6.8016 -6.8909 -6.9730 * logK= -6.480000 deltaH= -14.000000 kJ VOF3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 123.9361 g 2 species in reaction 1.000 VO++ 3.000 F- -7.6393 -7.8067 -7.9600 -8.1278 -8.2803 -8.4195 -8.5470 -8.6642 * logK= -7.960000 deltaH= -20.000000 kJ VOF4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 142.9345 g 2 species in reaction 1.000 VO++ 4.000 F- -8.2131 -8.4307 -8.6300 -8.8482 -9.0464 -9.2273 -9.3931 -9.5455 * logK= -8.630000 deltaH= -26.000000 kJ VOH+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 67.9488 g 3 species in reaction 1.000 V++ -1.000 H+ 1.000 H2O 7.4560 6.9555 6.4970 5.9951 5.5391 5.1229 4.7417 4.3910 * logK= 6.497000 deltaH= -59.810000 kJ VOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 67.9488 g 3 species in reaction -1.000 H+ 1.000 H2O 1.000 V+++ 2.2970 2.2970 2.2970 2.2970 2.2970 2.2970 2.2970 2.2970 * logK= 2.297000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VOH-(Glycine)2+ formula= VOH[NH2CH2COO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 216.0670 g 3 species in reaction 2.000 Glycine- 1.000 VO++ 1.000 H+ -17.2400 -17.2400 -17.2400 -17.2400 -17.2400 -17.2400 -17.2400 -17.2400 * logK= -17.240000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VOH-DTPA-- formula= VOH(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 456.2591 g 3 species in reaction 1.000 VO++ 1.000 H+ 1.000 DTPA----- -26.8200 -26.8200 -26.8200 -26.8200 -26.8200 -26.8200 -26.8200 -26.8200 * logK= -26.820000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VOH-Glycine++ formula= VOH[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 142.0079 g 3 species in reaction 1.000 Glycine- 1.000 VO++ 1.000 H+ -11.4274 -11.0947 -10.7900 -10.4564 -10.1534 -9.8768 -9.6234 -9.3904 * logK= -10.790000 deltaH= 39.750000 kJ VOH-Malonate+ formula= VOH[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 169.9952 g 3 species in reaction 1.000 Malonate-- 1.000 VO++ 1.000 H+ -7.3100 -7.3100 -7.3100 -7.3100 -7.3100 -7.3100 -7.3100 -7.3100 * logK= -7.310000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VOH-Phthalate+ formula= VOH[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 232.0660 g 3 species in reaction 1.000 VO++ 1.000 Phthalate-- 1.000 H+ -7.1400 -7.1400 -7.1400 -7.1400 -7.1400 -7.1400 -7.1400 -7.1400 * logK= -7.140000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VOH2-(Glycine)2++ formula= VOH2[NH2CH2COO]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 217.0749 g 3 species in reaction 2.000 Glycine- 1.000 VO++ 2.000 H+ -22.9441 -22.2270 -21.5700 -20.8508 -20.1974 -19.6012 -19.0548 -18.5524 * logK= -21.570000 deltaH= 85.700000 kJ VOH2PO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 163.9281 g 3 species in reaction 1.000 VO++ 2.000 H+ 1.000 PO4--- -23.1800 -23.1800 -23.1800 -23.1800 -23.1800 -23.1800 -23.1800 -23.1800 * logK= -23.180000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VOHEGTA- formula= VOH(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 444.2682 g 3 species in reaction 1.000 EGTA---- 1.000 VO++ 1.000 H+ -21.9200 -21.9200 -21.9200 -21.9200 -21.9200 -21.9200 -21.9200 -21.9200 * logK= -21.920000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VOHNTA- formula= VOH[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 256.0653 g 4 species in reaction 1.000 NTA--- -1.000 H+ 1.000 H2O 1.000 V+++ -7.4930 -7.4930 -7.4930 -7.4930 -7.4930 -7.4930 -7.4930 -7.4930 * logK= -7.493000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VONTA- formula= VO[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 255.0574 g 2 species in reaction 1.000 NTA--- 1.000 VO++ -12.7500 -12.7500 -12.7500 -12.7500 -12.7500 -12.7500 -12.7500 -12.7500 * logK= -12.750000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VOOH-(Glycine)2- formula= VOOH[NH2CH2COO]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 232.0664 g 4 species in reaction 2.000 Glycine- 1.000 VO++ -1.000 H+ 1.000 H2O -4.5100 -4.5100 -4.5100 -4.5100 -4.5100 -4.5100 -4.5100 -4.5100 * logK= -4.510000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VOOH-(Sal)2--- formula= VOOH(OC6H4COO)2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 356.1618 g 4 species in reaction 1.000 VO++ -1.000 H+ 2.000 Sal-- 1.000 H2O -10.7300 -10.7300 -10.7300 -10.7300 -10.7300 -10.7300 -10.7300 -10.7300 * logK= -10.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VOOH-Glycine (aq) formula= VOOH[NH2CH2COO] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 158.0073 g 4 species in reaction 1.000 Glycine- 1.000 VO++ -1.000 H+ 1.000 H2O -1.8200 -1.8200 -1.8200 -1.8200 -1.8200 -1.8200 -1.8200 -1.8200 * logK= -1.820000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VOOH-Sal- formula= VOOH(OC6H4COO)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 220.0550 g 4 species in reaction 1.000 VO++ -1.000 H+ 1.000 Sal-- 1.000 H2O -6.8900 -6.8900 -6.8900 -6.8900 -6.8900 -6.8900 -6.8900 -6.8900 * logK= -6.890000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VOOHCO3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 143.9574 g 4 species in reaction 1.000 VO++ -1.000 H+ 1.000 CO3-- 1.000 H2O -1.5200 -1.5200 -1.5200 -1.5200 -1.5200 -1.5200 -1.5200 -1.5200 * logK= -1.520000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VOOHNTA-- formula= VOOH[N(CH2COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 272.0647 g 4 species in reaction 1.000 NTA--- 1.000 VO++ -1.000 H+ 1.000 H2O -5.3900 -5.3900 -5.3900 -5.3900 -5.3900 -5.3900 -5.3900 -5.3900 * logK= -5.390000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VOSCN+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 125.0226 g 2 species in reaction 1.000 VO++ 1.000 SCN- -2.5765 -2.4427 -2.3200 -2.1857 -2.0637 -1.9524 -1.8504 -1.7566 * logK= -2.320000 deltaH= 16.000000 kJ VOSO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 163.0025 g 2 species in reaction 1.000 VO++ 1.000 SO4-- -2.1674 -2.3097 -2.4400 -2.5827 -2.7123 -2.8306 -2.9389 -3.0386 * logK= -2.440000 deltaH= -17.000000 kJ VSCN+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 109.0232 g 2 species in reaction 1.000 V++ 1.000 SCN- -2.1607 -1.9933 -1.8400 -1.6722 -1.5197 -1.3805 -1.2530 -1.1358 * logK= -1.840000 deltaH= 20.000000 kJ VSCN++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 109.0232 g 2 species in reaction 1.000 SCN- 1.000 V+++ -3.2665 -3.1327 -3.0100 -2.8757 -2.7537 -2.6424 -2.5404 -2.4466 * logK= -3.010000 deltaH= 16.000000 kJ VSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 147.0031 g 2 species in reaction 1.000 V+++ 1.000 SO4-- -2.6800 -2.6800 -2.6800 -2.6800 -2.6800 -2.6800 -2.6800 -2.6800 * logK= -2.680000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C W7O24------ charge= -6 ion size= 0.0 A b= 0.0000 mole wt.= 1670.9356 g 3 species in reaction 7.000 WO4-- 8.000 H+ -4.000 H2O -70.5293 -67.7428 -65.1900 -62.3956 -59.8567 -57.5397 -55.4169 -53.4647 * logK= -65.190000 deltaH= 333.000000 kJ WO3(H2O)3(aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 249.8634 g 2 species in reaction 1.000 WO4-- 2.000 H+ -8.5076 -8.6080 -8.7000 -8.8007 -8.8922 -8.9757 -9.0522 -9.1225 * logK= -8.700000 deltaH= -12.000000 kJ WO3-Oxalate-- formula= WO3[(COO)2]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 319.8678 g 4 species in reaction 1.000 WO4-- 2.000 H+ 1.000 Oxalate-- -1.000 H2O -14.5400 -14.5400 -14.5400 -14.5400 -14.5400 -14.5400 -14.5400 -14.5400 * logK= -14.540000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C WO3NTA--- formula= WO3[N(CH2COO)3]--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 419.9647 g 4 species in reaction 1.000 NTA--- 1.000 WO4-- 2.000 H+ -1.000 H2O -19.4500 -19.4500 -19.4500 -19.4500 -19.4500 -19.4500 -19.4500 -19.4500 * logK= -19.450000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Y(CO3)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 208.9284 g 2 species in reaction 1.000 Y+++ 2.000 CO3-- -11.8600 -11.8600 -11.8600 -11.8600 -11.8600 -11.8600 -11.8600 -11.8600 * logK= -11.860000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Y(NTA)2--- formula= Y[N(CH2COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 465.1430 g 2 species in reaction 1.000 Y+++ 2.000 NTA--- -22.5384 -22.4297 -22.3300 -22.2209 -22.1218 -22.0313 -21.9485 -21.8723 * logK= -22.330000 deltaH= 13.000000 kJ Y(SO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 281.0332 g 2 species in reaction 1.000 Y+++ 2.000 SO4-- -4.7350 -4.9777 -5.2000 -5.4434 -5.6645 -5.8662 -6.0511 -6.2211 * logK= -5.200000 deltaH= -29.000000 kJ Y-(Acetate)2+ formula= Y(CH3COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 206.9990 g 2 species in reaction 1.000 Y+++ 2.000 Acetate- -3.8873 -4.0713 -4.2400 -4.4246 -4.5924 -4.7454 -4.8857 -5.0146 * logK= -4.240000 deltaH= -22.000000 kJ Y-(Formate)2+ formula= Y[HCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 178.9454 g 2 species in reaction 1.000 Y+++ 2.000 Formate- -3.0300 -3.0300 -3.0300 -3.0300 -3.0300 -3.0300 -3.0300 -3.0300 * logK= -3.030000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Y-(iButyrate)2+ formula= Y[(CH3)2CHCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 263.1062 g 2 species in reaction 1.000 Y+++ 2.000 iButyrate- -3.4086 -3.7434 -4.0500 -4.3857 -4.6906 -4.9689 -5.2239 -5.4584 * logK= -4.050000 deltaH= -40.000000 kJ Y-(Lactate)2+ formula= Y[CH3CH(OH)COO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 267.0514 g 2 species in reaction 1.000 Y+++ 2.000 Lactate- -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 -6.4300 * logK= -6.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Y-(Lactate)3 (aq) formula= Y[CH3CH(OH)COO]3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 356.1221 g 2 species in reaction 1.000 Y+++ 3.000 Lactate- -8.2700 -8.2700 -8.2700 -8.2700 -8.2700 -8.2700 -8.2700 -8.2700 * logK= -8.270000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Y-(Malate)2- formula= Y(C4H4O5)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 353.0552 g 2 species in reaction 1.000 Y+++ 2.000 Malate-- -9.9000 -9.9000 -9.9000 -9.9000 -9.9000 -9.9000 -9.9000 -9.9000 * logK= -9.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Y-(Malonate)2- formula= Y[CH2(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 293.0028 g 2 species in reaction 1.000 Y+++ 2.000 Malonate-- -8.7600 -8.7600 -8.7600 -8.7600 -8.7600 -8.7600 -8.7600 -8.7600 * logK= -8.760000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Y-(Propionate)2+ formula= Y(CH3CH2COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 235.0526 g 2 species in reaction 1.000 Y+++ 2.000 Propionate- -3.7552 -3.9560 -4.1400 -4.3414 -4.5244 -4.6914 -4.8444 -4.9851 * logK= -4.140000 deltaH= -24.000000 kJ Y-Acetate++ formula= Y(CH3COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 147.9545 g 2 species in reaction 1.000 Y+++ 1.000 Acetate- -2.1116 -2.2203 -2.3200 -2.4291 -2.5282 -2.6187 -2.7015 -2.7777 * logK= -2.320000 deltaH= -13.000000 kJ Y-Citrate (aq) formula= Y[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 278.0113 g 2 species in reaction 1.000 Y+++ 1.000 Citrate--- -9.4200 -9.4200 -9.4200 -9.4200 -9.4200 -9.4200 -9.4200 -9.4200 * logK= -9.420000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Y-DTPA-- formula= Y(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 477.2203 g 2 species in reaction 1.000 Y+++ 1.000 DTPA----- -25.7029 -25.4770 -25.2700 -25.0434 -24.8376 -24.6497 -24.4776 -24.3193 * logK= -25.270000 deltaH= 27.000000 kJ Y-EDTA- formula= Y(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 377.1234 g 2 species in reaction 1.000 Y+++ 1.000 EDTA---- -20.6721 -20.6553 -20.6400 -20.6232 -20.6080 -20.5941 -20.5813 -20.5696 * logK= -20.640000 deltaH= 2.000000 kJ Y-Formate++ formula= Y[HCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 133.9277 g 2 species in reaction 1.000 Y+++ 1.000 Formate- -1.7700 -1.7700 -1.7700 -1.7700 -1.7700 -1.7700 -1.7700 -1.7700 * logK= -1.770000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Y-Glutarate+ formula= Y[C3H6(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 219.0100 g 2 species in reaction 1.000 Y+++ 1.000 Glutarate-- -4.5400 -4.5400 -4.5400 -4.5400 -4.5400 -4.5400 -4.5400 -4.5400 * logK= -4.540000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Y-Glycine++ formula= Y[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 162.9691 g 2 species in reaction 1.000 Y+++ 1.000 Glycine- -4.1500 -4.1500 -4.1500 -4.1500 -4.1500 -4.1500 -4.1500 -4.1500 * logK= -4.150000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Y-HEDTA (aq) formula= Y(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 364.1477 g 2 species in reaction 1.000 Y+++ 1.000 HEDTA--- -16.8203 -16.7367 -16.6600 -16.5761 -16.4998 -16.4303 -16.3665 -16.3079 * logK= -16.660000 deltaH= 10.000000 kJ Y-iButyrate++ formula= Y[(CH3)2CHCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 176.0081 g 2 species in reaction 1.000 Y+++ 1.000 iButyrate- -2.0573 -2.2413 -2.4100 -2.5946 -2.7624 -2.9154 -3.0557 -3.1846 * logK= -2.410000 deltaH= -22.000000 kJ Y-iPhthalate+ formula= Y[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 253.0272 g 2 species in reaction 1.000 Y+++ 1.000 iPhthalate-- -3.5595 -3.6850 -3.8000 -3.9259 -4.0402 -4.1446 -4.2402 -4.3282 * logK= -3.800000 deltaH= -15.000000 kJ Y-Lactate++ formula= Y[CH3CH(OH)COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 177.9807 g 2 species in reaction 1.000 Y+++ 1.000 Lactate- -3.6400 -3.6400 -3.6400 -3.6400 -3.6400 -3.6400 -3.6400 -3.6400 * logK= -3.640000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Y-Malate+ formula= Y(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 220.9826 g 2 species in reaction 1.000 Y+++ 1.000 Malate-- -6.2000 -6.2000 -6.2000 -6.2000 -6.2000 -6.2000 -6.2000 -6.2000 * logK= -6.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Y-Malonate+ formula= Y[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 190.9564 g 2 species in reaction 1.000 Y+++ 1.000 Malonate-- -5.6900 -5.6900 -5.6900 -5.6900 -5.6900 -5.6900 -5.6900 -5.6900 * logK= -5.690000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Y-Oxalate+ formula= Y[(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 176.9296 g 2 species in reaction 1.000 Y+++ 1.000 Oxalate-- -6.7400 -6.7400 -6.7400 -6.7400 -6.7400 -6.7400 -6.7400 -6.7400 * logK= -6.740000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Y-Phthalate+ formula= Y[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 253.0272 g 2 species in reaction 1.000 Y+++ 1.000 Phthalate-- -4.7400 -4.7400 -4.7400 -4.7400 -4.7400 -4.7400 -4.7400 -4.7400 * logK= -4.740000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Y-Propionate++ formula= Y(CH3CH2COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 161.9813 g 2 species in reaction 1.000 Y+++ 1.000 Propionate- -2.2735 -2.4073 -2.5300 -2.6643 -2.7863 -2.8976 -2.9996 -3.0934 * logK= -2.530000 deltaH= -16.000000 kJ Y-Tartrate+ formula= Y(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 236.9820 g 2 species in reaction 1.000 Y+++ 1.000 Tartrate-- -5.3200 -5.3200 -5.3200 -5.3200 -5.3200 -5.3200 -5.3200 -5.3200 * logK= -5.320000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Y2(OH)2++++ charge= 4 ion size= 0.0 A b= 0.0000 mole wt.= 211.8346 g 3 species in reaction 2.000 Y+++ -2.000 H+ 2.000 H2O 14.1940 14.1940 14.1940 14.1940 14.1940 14.1940 14.1940 14.1940 * logK= 14.194000 deltaH= 0.000000 kJ Yb(CO3)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 293.0584 g 2 species in reaction 1.000 Yb+++ 2.000 CO3-- -13.8600 -13.8600 -13.8600 -13.8600 -13.8600 -13.8600 -13.8600 -13.8600 * logK= -13.860000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Yb(NTA)2--- formula= Yb[N(CH2COO)3]2--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 549.2730 g 2 species in reaction 2.000 NTA--- 1.000 Yb+++ -23.4294 -23.3775 -23.3300 -23.2780 -23.2307 -23.1876 -23.1480 -23.1117 * logK= -23.330000 deltaH= 6.200000 kJ Yb(SO4)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 365.1632 g 2 species in reaction 1.000 Yb+++ 2.000 SO4-- -4.7350 -4.9777 -5.2000 -5.4434 -5.6645 -5.8662 -6.0511 -6.2211 * logK= -5.200000 deltaH= -29.000000 kJ Yb-(Acetate)2+ formula= Yb(CH3COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 291.1290 g 2 species in reaction 2.000 Acetate- 1.000 Yb+++ -3.9592 -4.1683 -4.3600 -4.5698 -4.7604 -4.9343 -5.0937 -5.2403 * logK= -4.360000 deltaH= -25.000000 kJ Yb-(Acetate)3 (aq) formula= Yb(CH3COO)3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 350.1735 g 2 species in reaction 3.000 Acetate- 1.000 Yb+++ -4.9971 -5.2230 -5.4300 -5.6566 -5.8624 -6.0503 -6.2224 -6.3807 * logK= -5.430000 deltaH= -27.000000 kJ Yb-(Benzoate)2+ formula= Yb(C6H5COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 415.2706 g 2 species in reaction 1.000 Yb+++ 2.000 Benzoate- -4.8000 -4.8000 -4.8000 -4.8000 -4.8000 -4.8000 -4.8000 -4.8000 * logK= -4.800000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Yb-(Formate)2+ formula= Yb[HCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 263.0754 g 2 species in reaction 1.000 Yb+++ 2.000 Formate- -2.3400 -2.3400 -2.3400 -2.3400 -2.3400 -2.3400 -2.3400 -2.3400 * logK= -2.340000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Yb-(iButyrate)2+ formula= Yb[(CH3)2CHCOO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 347.2362 g 2 species in reaction 2.000 iButyrate- 1.000 Yb+++ -4.2731 -4.4907 -4.6900 -4.9082 -5.1064 -5.2873 -5.4531 -5.6055 * logK= -4.690000 deltaH= -26.000000 kJ Yb-(Lactate)2+ formula= Yb[CH3CH(OH)COO]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 351.1814 g 2 species in reaction 2.000 Lactate- 1.000 Yb+++ -7.0924 -6.9920 -6.9000 -6.7993 -6.7078 -6.6243 -6.5478 -6.4775 * logK= -6.900000 deltaH= 12.000000 kJ Yb-(Lactate)3 (aq) formula= Yb[CH3CH(OH)COO]3 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 440.2521 g 2 species in reaction 3.000 Lactate- 1.000 Yb+++ -9.0083 -8.9413 -8.8800 -8.8129 -8.7519 -8.6962 -8.6452 -8.5983 * logK= -8.880000 deltaH= 8.000000 kJ Yb-(Malate)2- formula= Yb(C4H4O5)2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 437.1852 g 2 species in reaction 2.000 Malate-- 1.000 Yb+++ -10.3000 -10.3000 -10.3000 -10.3000 -10.3000 -10.3000 -10.3000 -10.3000 * logK= -10.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Yb-(Malonate)2- formula= Yb[CH2(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 377.1328 g 2 species in reaction 2.000 Malonate-- 1.000 Yb+++ -8.2152 -8.4160 -8.6000 -8.8014 -8.9844 -9.1514 -9.3044 -9.4451 * logK= -8.600000 deltaH= -24.000000 kJ Yb-(Malonate)3--- formula= Yb[CH2(COO)2]3--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 479.1792 g 2 species in reaction 3.000 Malonate-- 1.000 Yb+++ -8.4809 -8.7570 -9.0100 -9.2869 -9.5385 -9.7681 -9.9785 -10.1720 * logK= -9.010000 deltaH= -33.000000 kJ Yb-(Oxalate)2- formula= Yb[(COO)2]2- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 349.0792 g 2 species in reaction 1.000 Yb+++ 2.000 Oxalate-- -11.4400 -11.4400 -11.4400 -11.4400 -11.4400 -11.4400 -11.4400 -11.4400 * logK= -11.440000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Yb-(Propionate)2+ formula= Yb(CH3CH2COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 319.1826 g 2 species in reaction 2.000 Propionate- 1.000 Yb+++ -4.0271 -4.2530 -4.4600 -4.6866 -4.8924 -5.0803 -5.2524 -5.4107 * logK= -4.460000 deltaH= -27.000000 kJ Yb-Acetate++ formula= Yb(CH3COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 232.0845 g 2 species in reaction 1.000 Acetate- 1.000 Yb+++ -2.3355 -2.4527 -2.5600 -2.6775 -2.7842 -2.8816 -2.9709 -3.0530 * logK= -2.560000 deltaH= -14.000000 kJ Yb-Benzoate++ formula= Yb(C6H5COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 294.1553 g 2 species in reaction 1.000 Yb+++ 1.000 Benzoate- -2.3976 -2.4980 -2.5900 -2.6907 -2.7822 -2.8657 -2.9422 -3.0125 * logK= -2.590000 deltaH= -12.000000 kJ Yb-Citrate (aq) formula= Yb[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 362.1413 g 2 species in reaction 1.000 Citrate--- 1.000 Yb+++ -9.6500 -9.6500 -9.6500 -9.6500 -9.6500 -9.6500 -9.6500 -9.6500 * logK= -9.650000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Yb-DTPA-- formula= Yb(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 561.3503 g 2 species in reaction 1.000 Yb+++ 1.000 DTPA----- -26.2608 -26.0517 -25.8600 -25.6502 -25.4596 -25.2857 -25.1263 -24.9797 * logK= -25.860000 deltaH= 25.000000 kJ Yb-Formate++ formula= Yb[HCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 218.0577 g 2 species in reaction 1.000 Yb+++ 1.000 Formate- -1.7100 -1.7100 -1.7100 -1.7100 -1.7100 -1.7100 -1.7100 -1.7100 * logK= -1.710000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Yb-Glycine++ formula= Yb[NH2CH2COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 247.0991 g 2 species in reaction 1.000 Glycine- 1.000 Yb+++ -4.5500 -4.5500 -4.5500 -4.5500 -4.5500 -4.5500 -4.5500 -4.5500 * logK= -4.550000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Yb-HEDTA (aq) formula= Yb(C10H15N2O7) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 448.2777 g 2 species in reaction 1.000 Yb+++ 1.000 HEDTA--- -17.9095 -17.8367 -17.7700 -17.6970 -17.6307 -17.5701 -17.5147 -17.4637 * logK= -17.770000 deltaH= 8.700000 kJ Yb-iButyrate++ formula= Yb[(CH3)2CHCOO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 260.1381 g 2 species in reaction 1.000 iButyrate- 1.000 Yb+++ -2.2912 -2.4837 -2.6600 -2.8530 -3.0284 -3.1884 -3.3350 -3.4699 * logK= -2.660000 deltaH= -23.000000 kJ Yb-iPhthalate+ formula= Yb[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 337.1572 g 2 species in reaction 1.000 iPhthalate-- 1.000 Yb+++ -3.6074 -3.7497 -3.8800 -4.0227 -4.1523 -4.2706 -4.3789 -4.4786 * logK= -3.880000 deltaH= -17.000000 kJ Yb-Lactate++ formula= Yb[CH3CH(OH)COO]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 262.1107 g 2 species in reaction 1.000 Lactate- 1.000 Yb+++ -4.0475 -3.9705 -3.9000 -3.8228 -3.7527 -3.6886 -3.6300 -3.5761 * logK= -3.900000 deltaH= 9.200000 kJ Yb-Malate+ formula= Yb(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 305.1126 g 2 species in reaction 1.000 Malate-- 1.000 Yb+++ -6.3400 -6.3400 -6.3400 -6.3400 -6.3400 -6.3400 -6.3400 -6.3400 * logK= -6.340000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Yb-Malonate+ formula= Yb[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 275.0864 g 2 species in reaction 1.000 Malonate-- 1.000 Yb+++ -5.4755 -5.5927 -5.7000 -5.8175 -5.9242 -6.0216 -6.1109 -6.1930 * logK= -5.700000 deltaH= -14.000000 kJ Yb-Oxalate+ formula= Yb[(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 261.0596 g 2 species in reaction 1.000 Yb+++ 1.000 Oxalate-- -6.7200 -6.7200 -6.7200 -6.7200 -6.7200 -6.7200 -6.7200 -6.7200 * logK= -6.720000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Yb-Phthalate+ formula= Yb[C6H4(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 337.1572 g 2 species in reaction 1.000 Phthalate-- 1.000 Yb+++ -4.7600 -4.7600 -4.7600 -4.7600 -4.7600 -4.7600 -4.7600 -4.7600 * logK= -4.760000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Yb-Propionate++ formula= Yb(CH3CH2COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 246.1113 g 2 species in reaction 1.000 Propionate- 1.000 Yb+++ -2.3395 -2.4650 -2.5800 -2.7059 -2.8202 -2.9246 -3.0202 -3.1082 * logK= -2.580000 deltaH= -15.000000 kJ Yb-Tartrate+ formula= Yb(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 321.1120 g 2 species in reaction 1.000 Tartrate-- 1.000 Yb+++ -5.5500 -5.5500 -5.5500 -5.5500 -5.5500 -5.5500 -5.5500 -5.5500 * logK= -5.550000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YbCl++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 208.4930 g 2 species in reaction 1.000 Cl- 1.000 Yb+++ -.4100 -.4100 -.4100 -.4100 -.4100 -.4100 -.4100 -.4100 * logK= -0.410000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YbCO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 233.0492 g 2 species in reaction 1.000 Yb+++ 1.000 CO3-- -8.0600 -8.0600 -8.0600 -8.0600 -8.0600 -8.0600 -8.0600 -8.0600 * logK= -8.060000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YbEDTA- formula= Yb(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 461.2534 g 2 species in reaction 1.000 Yb+++ 1.000 EDTA---- -22.2039 -22.1236 -22.0500 -21.9694 -21.8962 -21.8295 -21.7683 -21.7120 * logK= -22.050000 deltaH= 9.600000 kJ YbEGTA- formula= Yb(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 549.3594 g 2 species in reaction 1.000 EGTA---- 1.000 Yb+++ -20.5600 -20.5600 -20.5600 -20.5600 -20.5600 -20.5600 -20.5600 -20.5600 * logK= -20.560000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YbF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 192.0384 g 2 species in reaction 1.000 Yb+++ 1.000 F- -4.4136 -4.5057 -4.5900 -4.6823 -4.7662 -4.8427 -4.9128 -4.9773 * logK= -4.590000 deltaH= -11.000000 kJ YbH-(Malonate)2 (aq) formula= YbH[CH2(COO)2]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 378.1407 g 3 species in reaction 2.000 Malonate-- 1.000 H+ 1.000 Yb+++ -11.8773 -12.0613 -12.2300 -12.4146 -12.5824 -12.7354 -12.8757 -13.0046 * logK= -12.230000 deltaH= -22.000000 kJ YbH-DTPA- formula= YbH(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 562.3582 g 3 species in reaction 1.000 H+ 1.000 Yb+++ 1.000 DTPA----- -28.5900 -28.5900 -28.5900 -28.5900 -28.5900 -28.5900 -28.5900 -28.5900 * logK= -28.590000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YbH-Malonate++ formula= YbH[CH2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 276.0943 g 3 species in reaction 1.000 Malonate-- 1.000 H+ 1.000 Yb+++ -7.2780 -7.3677 -7.4500 -7.5400 -7.6219 -7.6965 -7.7649 -7.8278 * logK= -7.450000 deltaH= -10.730000 kJ YbH-Sal++ formula= YbH(OC6H4COO)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 310.1547 g 3 species in reaction 1.000 H+ 1.000 Sal-- 1.000 Yb+++ -16.6803 -16.3984 -16.1400 -15.8572 -15.6003 -15.3658 -15.1509 -14.9534 * logK= -16.140000 deltaH= 33.700000 kJ YbH-Succinate++ formula= YbH[(CH2)2(COO)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 290.1211 g 3 species in reaction 1.000 H+ 1.000 Yb+++ 1.000 Succinate-- -8.0000 -8.0000 -8.0000 -8.0000 -8.0000 -8.0000 -8.0000 -8.0000 * logK= -8.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YbH2-(Sal)2+ formula= YbH2(OC6H4COO)2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 447.2694 g 3 species in reaction 2.000 H+ 2.000 Sal-- 1.000 Yb+++ -32.8262 -32.3794 -31.9700 -31.5219 -31.1148 -30.7432 -30.4028 -30.0897 * logK= -31.970000 deltaH= 53.400000 kJ YbH2-(Succinate)2+ formula= YbH2[(CH2)2(COO)2]2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 407.2022 g 3 species in reaction 2.000 H+ 1.000 Yb+++ 2.000 Succinate-- -15.2500 -15.2500 -15.2500 -15.2500 -15.2500 -15.2500 -15.2500 -15.2500 * logK= -15.250000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YbHCO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 234.0571 g 3 species in reaction 1.000 H+ 1.000 Yb+++ 1.000 CO3-- -12.5800 -12.5800 -12.5800 -12.5800 -12.5800 -12.5800 -12.5800 -12.5800 * logK= -12.580000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YbHPO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 269.0193 g 3 species in reaction 1.000 H+ 1.000 PO4--- 1.000 Yb+++ -18.3800 -18.3800 -18.3800 -18.3800 -18.3800 -18.3800 -18.3800 -18.3800 * logK= -18.380000 deltaH= 0.000000 kJ YbNO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 235.0449 g 2 species in reaction 1.000 NO3- 1.000 Yb+++ -.4100 -.4100 -.4100 -.4100 -.4100 -.4100 -.4100 -.4100 * logK= -0.410000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YbNTA (aq) formula= Yb[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 361.1565 g 2 species in reaction 1.000 NTA--- 1.000 Yb+++ -14.1460 -14.1377 -14.1300 -14.1216 -14.1140 -14.1070 -14.1007 -14.0948 * logK= -14.130000 deltaH= 1.000000 kJ YbOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 190.0473 g 3 species in reaction -1.000 H+ 1.000 Yb+++ 1.000 H2O 7.3870 7.3870 7.3870 7.3870 7.3870 7.3870 7.3870 7.3870 * logK= 7.387000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YbOH-HEDTA- formula= YbOH(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 465.2850 g 4 species in reaction -1.000 H+ 1.000 Yb+++ 1.000 H2O 1.000 HEDTA--- -8.9800 -8.9800 -8.9800 -8.9800 -8.9800 -8.9800 -8.9800 -8.9800 * logK= -8.980000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YbOHNTA- formula= YbOH[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 378.1638 g 4 species in reaction 1.000 NTA--- -1.000 H+ 1.000 Yb+++ 1.000 H2O -6.4250 -6.4250 -6.4250 -6.4250 -6.4250 -6.4250 -6.4250 -6.4250 * logK= -6.425000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YbPO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 268.0114 g 2 species in reaction 1.000 PO4--- 1.000 Yb+++ -12.9000 -12.9000 -12.9000 -12.9000 -12.9000 -12.9000 -12.9000 -12.9000 * logK= -12.900000 deltaH= 0.000000 kJ YBr++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 168.8140 g 2 species in reaction 1.000 Y+++ 1.000 Br- -.4600 -.4600 -.4600 -.4600 -.4600 -.4600 -.4600 -.4600 * logK= -0.460000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YbSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 269.1016 g 2 species in reaction 1.000 Yb+++ 1.000 SO4-- -3.2454 -3.4043 -3.5500 -3.7094 -3.8543 -3.9865 -4.1076 -4.2190 * logK= -3.550000 deltaH= -19.000000 kJ YCl++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 124.3630 g 2 species in reaction 1.000 Y+++ 1.000 Cl- -.5800 -.5800 -.5800 -.5800 -.5800 -.5800 -.5800 -.5800 * logK= -0.580000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YCO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 148.9192 g 2 species in reaction 1.000 Y+++ 1.000 CO3-- -7.7300 -7.7300 -7.7300 -7.7300 -7.7300 -7.7300 -7.7300 -7.7300 * logK= -7.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YEGTA- formula= Y(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 465.2294 g 2 species in reaction 1.000 Y+++ 1.000 EGTA---- -19.6600 -19.6600 -19.6600 -19.6600 -19.6600 -19.6600 -19.6600 -19.6600 * logK= -19.660000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YF++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 107.9084 g 2 species in reaction 1.000 Y+++ 1.000 F- -4.6625 -4.7395 -4.8100 -4.8872 -4.9573 -5.0214 -5.0800 -5.1339 * logK= -4.810000 deltaH= -9.200000 kJ YF2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 126.9068 g 2 species in reaction 1.000 Y+++ 2.000 F- -8.5400 -8.5400 -8.5400 -8.5400 -8.5400 -8.5400 -8.5400 -8.5400 * logK= -8.540000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YF3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 145.9052 g 2 species in reaction 1.000 Y+++ 3.000 F- -12.1000 -12.1000 -12.1000 -12.1000 -12.1000 -12.1000 -12.1000 -12.1000 * logK= -12.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YH-DTPA- formula= YH(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 478.2282 g 3 species in reaction 1.000 Y+++ 1.000 H+ 1.000 DTPA----- -27.6100 -27.6100 -27.6100 -27.6100 -27.6100 -27.6100 -27.6100 -27.6100 * logK= -27.610000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YH2PO4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 185.8972 g 3 species in reaction 1.000 Y+++ 2.000 H+ 1.000 PO4--- -22.2230 -22.2230 -22.2230 -22.2230 -22.2230 -22.2230 -22.2230 -22.2230 * logK= -22.223000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YHCO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 149.9271 g 3 species in reaction 1.000 Y+++ 1.000 H+ 1.000 CO3-- -12.7300 -12.7300 -12.7300 -12.7300 -12.7300 -12.7300 -12.7300 -12.7300 * logK= -12.730000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YHPO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 184.8893 g 3 species in reaction 1.000 Y+++ 1.000 H+ 1.000 PO4--- -18.2800 -18.2800 -18.2800 -18.2800 -18.2800 -18.2800 -18.2800 -18.2800 * logK= -18.280000 deltaH= 0.000000 kJ YNO3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 150.9149 g 2 species in reaction 1.000 Y+++ 1.000 NO3- -.4000 -.4000 -.4000 -.4000 -.4000 -.4000 -.4000 -.4000 * logK= -0.400000 deltaH= 0.000000 kJ YNTA (aq) formula= Y[N(CH2COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 277.0265 g 2 species in reaction 1.000 Y+++ 1.000 NTA--- -13.3721 -13.3553 -13.3400 -13.3232 -13.3080 -13.2941 -13.2813 -13.2696 * logK= -13.340000 deltaH= 2.000000 kJ YOH++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 105.9173 g 3 species in reaction 1.000 Y+++ -1.000 H+ 1.000 H2O 7.6970 7.6970 7.6970 7.6970 7.6970 7.6970 7.6970 7.6970 * logK= 7.697000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YOH-HEDTA- formula= YOH(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 381.1550 g 4 species in reaction 1.000 Y+++ -1.000 H+ 1.000 H2O 1.000 HEDTA--- -7.4200 -7.4200 -7.4200 -7.4200 -7.4200 -7.4200 -7.4200 -7.4200 * logK= -7.420000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YOHNTA- formula= YOH[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 294.0338 g 4 species in reaction 1.000 Y+++ 1.000 NTA--- -1.000 H+ 1.000 H2O -5.7350 -5.7350 -5.7350 -5.7350 -5.7350 -5.7350 -5.7350 -5.7350 * logK= -5.735000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YPO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 183.8814 g 2 species in reaction 1.000 Y+++ 1.000 PO4--- -12.6000 -12.6000 -12.6000 -12.6000 -12.6000 -12.6000 -12.6000 -12.6000 * logK= -12.600000 deltaH= 0.000000 kJ YSCN++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 146.9917 g 2 species in reaction 1.000 Y+++ 1.000 SCN- -.7400 -.7400 -.7400 -.7400 -.7400 -.7400 -.7400 -.7400 * logK= -0.740000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YSO4+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 184.9716 g 2 species in reaction 1.000 Y+++ 1.000 SO4-- -3.1593 -3.3267 -3.4800 -3.6478 -3.8003 -3.9395 -4.0670 -4.1842 * logK= -3.480000 deltaH= -20.000000 kJ Zn(CN)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 117.4053 g 2 species in reaction 1.000 Zn++ 2.000 CN- -11.8076 -11.4226 -11.0700 -10.6840 -10.3333 -10.0132 -9.7200 -9.4503 * logK= -11.070000 deltaH= 46.000000 kJ Zn(CN)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 143.4230 g 2 species in reaction 1.000 Zn++ 3.000 CN- -17.4049 -16.6978 -16.0500 -15.3409 -14.6967 -14.1087 -13.5700 -13.0747 * logK= -16.050000 deltaH= 84.500000 kJ Zn(CN)4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 169.4407 g 2 species in reaction 1.000 Zn++ 4.000 CN- -21.4799 -20.5093 -19.6200 -18.6466 -17.7622 -16.9550 -16.2155 -15.5355 * logK= -19.620000 deltaH= 116.000000 kJ Zn(CO3)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 185.3883 g 2 species in reaction 1.000 Zn++ 2.000 CO3-- -7.3000 -7.3000 -7.3000 -7.3000 -7.3000 -7.3000 -7.3000 -7.3000 * logK= -7.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn(H2BO3)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 187.0179 g 3 species in reaction 1.000 Zn++ 2.000 H3BO3 -2.000 H+ 14.4000 14.4000 14.4000 14.4000 14.4000 14.4000 14.4000 14.4000 * logK= 14.400000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn(NH3)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 99.4307 g 3 species in reaction 1.000 Zn++ -2.000 H+ 2.000 NH4+ 15.2888 14.6110 13.9900 13.3103 12.6927 12.1291 11.6128 11.1379 * logK= 13.990000 deltaH= -81.000000 kJ Zn(NH3)3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 116.4611 g 3 species in reaction 1.000 Zn++ -3.000 H+ 3.000 NH4+ 22.7299 21.7593 20.8700 19.8966 19.0122 18.2050 17.4655 16.7855 * logK= 20.870000 deltaH= -116.000000 kJ Zn(NH3)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 133.4915 g 3 species in reaction 1.000 Zn++ -4.000 H+ 4.000 NH4+ 30.4326 29.2100 28.0900 26.8640 25.7501 24.7335 23.8022 22.9456 * logK= 28.090000 deltaH= -146.100000 kJ Zn(NO2)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 157.3809 g 2 species in reaction 1.000 Zn++ 2.000 NO2- -1.2000 -1.2000 -1.2000 -1.2000 -1.2000 -1.2000 -1.2000 -1.2000 * logK= -1.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn(NO3)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 189.3797 g 2 species in reaction 1.000 Zn++ 2.000 NO3- .3000 .3000 .3000 .3000 .3000 .3000 .3000 .3000 * logK= 0.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn(NTA)2---- formula= Zn[N(CH2COO)3]2---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 441.6029 g 2 species in reaction 1.000 Zn++ 2.000 NTA--- -15.2327 -15.0487 -14.8800 -14.6954 -14.5276 -14.3746 -14.2343 -14.1054 * logK= -14.880000 deltaH= 22.000000 kJ Zn(OH)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 99.3845 g 3 species in reaction 1.000 Zn++ -2.000 H+ 2.000 H2O 16.8940 16.8940 16.8940 16.8940 16.8940 16.8940 16.8940 16.8940 * logK= 16.894000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn(OH)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 116.3918 g 3 species in reaction 1.000 Zn++ -3.000 H+ 3.000 H2O 28.3910 28.3910 28.3910 28.3910 28.3910 28.3910 28.3910 28.3910 * logK= 28.391000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn(OH)4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 133.3991 g 3 species in reaction 1.000 Zn++ -4.000 H+ 4.000 H2O 41.1880 41.1880 41.1880 41.1880 41.1880 41.1880 41.1880 41.1880 * logK= 41.188000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn(SCN)2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 181.5333 g 2 species in reaction 1.000 Zn++ 2.000 SCN- -1.9260 -1.9177 -1.9100 -1.9016 -1.8940 -1.8870 -1.8807 -1.8748 * logK= -1.910000 deltaH= 1.000000 kJ Zn(SCN)3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 239.6150 g 2 species in reaction 1.000 Zn++ 3.000 SCN- -2.0128 -2.0061 -2.0000 -1.9933 -1.9872 -1.9816 -1.9765 -1.9718 * logK= -2.000000 deltaH= 0.800000 kJ Zn(SCN)4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 297.6967 g 2 species in reaction 1.000 Zn++ 4.000 SCN- -1.7503 -1.6875 -1.6300 -1.5671 -1.5099 -1.4577 -1.4099 -1.3659 * logK= -1.630000 deltaH= 7.500000 kJ Zn(SeO4)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 351.2851 g 2 species in reaction 1.000 Zn++ 2.000 SeO4-- -2.2000 -2.2000 -2.2000 -2.2000 -2.2000 -2.2000 -2.2000 -2.2000 * logK= -2.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn(SO4)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 257.4931 g 2 species in reaction 1.000 Zn++ 2.000 SO4-- -3.2800 -3.2800 -3.2800 -3.2800 -3.2800 -3.2800 -3.2800 -3.2800 * logK= -3.280000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn-(Acetate)2 (aq) formula= Zn(CH3COO)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 183.4589 g 2 species in reaction 1.000 Zn++ 2.000 Acetate- -1.5573 -1.7413 -1.9100 -2.0946 -2.2624 -2.4154 -2.5557 -2.6846 * logK= -1.910000 deltaH= -22.000000 kJ Zn-(Citrate)2---- formula= Zn[C3H5O(COO)3]2---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 443.5725 g 2 species in reaction 1.000 Zn++ 2.000 Citrate--- -7.0392 -7.2483 -7.4400 -7.6498 -7.8404 -8.0143 -8.1737 -8.3203 * logK= -7.440000 deltaH= -25.000000 kJ Zn-(Glutamate)2-- formula= Zn(C5H7NO4)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 355.5991 g 2 species in reaction 1.000 Zn++ 2.000 Glutamate-- -9.3300 -9.3300 -9.3300 -9.3300 -9.3300 -9.3300 -9.3300 -9.3300 * logK= -9.330000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn-(Glutarate)2-- formula= Zn[C3H6(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 325.5699 g 2 species in reaction 1.000 Zn++ 2.000 Glutarate-- -2.5600 -2.5600 -2.5600 -2.5600 -2.5600 -2.5600 -2.5600 -2.5600 * logK= -2.560000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn-(Glycine)2 (aq) formula= Zn[NH2CH2COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 213.4881 g 2 species in reaction 1.000 Zn++ 2.000 Glycine- -10.2108 -10.0017 -9.8100 -9.6002 -9.4096 -9.2357 -9.0763 -8.9297 * logK= -9.810000 deltaH= 25.000000 kJ Zn-(Glycine)3- formula= Zn[NH2CH2COO]3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 287.5472 g 2 species in reaction 1.000 Zn++ 3.000 Glycine- -12.9253 -12.5990 -12.3000 -11.9727 -11.6754 -11.4040 -11.1554 -10.9268 * logK= -12.300000 deltaH= 39.000000 kJ Zn-(Lactate)2 (aq) formula= Zn[CH3CH(OH)COO]2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 243.5113 g 2 species in reaction 1.000 Zn++ 2.000 Lactate- -3.7500 -3.7500 -3.7500 -3.7500 -3.7500 -3.7500 -3.7500 -3.7500 * logK= -3.750000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn-(Lactate)3- formula= Zn[CH3CH(OH)COO]3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 332.5820 g 2 species in reaction 1.000 Zn++ 3.000 Lactate- -4.0100 -4.0100 -4.0100 -4.0100 -4.0100 -4.0100 -4.0100 -4.0100 * logK= -4.010000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn-(Malonate)2-- formula= Zn[CH2(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 269.4627 g 2 species in reaction 2.000 Malonate-- 1.000 Zn++ -5.4000 -5.4000 -5.4000 -5.4000 -5.4000 -5.4000 -5.4000 -5.4000 * logK= -5.400000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn-(Oxalate)2-- formula= Zn[(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 241.4091 g 2 species in reaction 1.000 Zn++ 2.000 Oxalate-- -7.7894 -7.7375 -7.6900 -7.6380 -7.5907 -7.5476 -7.5080 -7.4717 * logK= -7.690000 deltaH= 6.200000 kJ Zn-(Phthalate)2-- formula= Zn[C6H4(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 393.6043 g 2 species in reaction 1.000 Zn++ 2.000 Phthalate-- -4.2000 -4.2000 -4.2000 -4.2000 -4.2000 -4.2000 -4.2000 -4.2000 * logK= -4.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn-(Propionate)2 (aq) formula= Zn(CH3CH2COO)2 charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 211.5125 g 2 species in reaction 1.000 Zn++ 2.000 Propionate- -1.9300 -1.9300 -1.9300 -1.9300 -1.9300 -1.9300 -1.9300 -1.9300 * logK= -1.930000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn-(Succinate)2-- formula= Zn[(CH2)2(COO)2]2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 297.5163 g 2 species in reaction 1.000 Zn++ 2.000 Succinate-- -2.8200 -2.8200 -2.8200 -2.8200 -2.8200 -2.8200 -2.8200 -2.8200 * logK= -2.820000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn-(Tartrate)2-- formula= Zn(C4H4O6)2-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 361.5139 g 2 species in reaction 1.000 Zn++ 2.000 Tartrate-- -5.4800 -5.4800 -5.4800 -5.4800 -5.4800 -5.4800 -5.4800 -5.4800 * logK= -5.480000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn-Acetate+ formula= Zn(CH3COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 124.4144 g 2 species in reaction 1.000 Zn++ 1.000 Acetate- -1.4369 -1.5064 -1.5700 -1.6396 -1.7029 -1.7607 -1.8136 -1.8623 * logK= -1.570000 deltaH= -8.300000 kJ Zn-Benzoate+ formula= Zn(C6H5COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 186.4852 g 2 species in reaction 1.000 Zn++ 1.000 Benzoate- -1.3300 -1.3300 -1.3300 -1.3300 -1.3300 -1.3300 -1.3300 -1.3300 * logK= -1.330000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn-Butyrate+ formula= Zn[CH3CH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 152.4680 g 2 species in reaction 1.000 Zn++ 1.000 Butyrate- -1.4300 -1.4300 -1.4300 -1.4300 -1.4300 -1.4300 -1.4300 -1.4300 * logK= -1.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn-Citrate- formula= Zn[C3H5O(COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 254.4712 g 2 species in reaction 1.000 Zn++ 1.000 Citrate--- -5.9317 -5.9987 -6.0600 -6.1271 -6.1881 -6.2438 -6.2948 -6.3417 * logK= -6.060000 deltaH= -8.000000 kJ Zn-DTPA--- formula= Zn(C14H18N3O10)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 453.6802 g 2 species in reaction 1.000 Zn++ 1.000 DTPA----- -21.0603 -20.6896 -20.3500 -19.9783 -19.6405 -19.3323 -19.0499 -18.7901 * logK= -20.350000 deltaH= 44.300000 kJ Zn-Formate+ formula= Zn[HCOO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 110.3876 g 2 species in reaction 1.000 Zn++ 1.000 Formate- -1.4400 -1.4400 -1.4400 -1.4400 -1.4400 -1.4400 -1.4400 -1.4400 * logK= -1.440000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn-Glutamate (aq) formula= Zn(C5H7NO4) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 210.4845 g 2 species in reaction 1.000 Zn++ 1.000 Glutamate-- -5.6200 -5.6200 -5.6200 -5.6200 -5.6200 -5.6200 -5.6200 -5.6200 * logK= -5.620000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn-Glutarate (aq) formula= Zn[C3H6(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 195.4699 g 2 species in reaction 1.000 Zn++ 1.000 Glutarate-- -2.2416 -2.3503 -2.4500 -2.5591 -2.6582 -2.7487 -2.8315 -2.9077 * logK= -2.450000 deltaH= -13.000000 kJ Zn-Glycine+ formula= Zn[NH2CH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 139.4290 g 2 species in reaction 1.000 Zn++ 1.000 Glycine- -5.5564 -5.4643 -5.3800 -5.2877 -5.2038 -5.1273 -5.0572 -4.9927 * logK= -5.380000 deltaH= 11.000000 kJ Zn-HEDTA- formula= Zn(C10H15N2O7)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 340.6076 g 2 species in reaction 1.000 Zn++ 1.000 HEDTA--- -16.4512 -16.1583 -15.8900 -15.5963 -15.3294 -15.0859 -14.8628 -14.6576 * logK= -15.890000 deltaH= 35.000000 kJ Zn-iButyrate+ formula= Zn[(CH3)2CHCOO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 152.4680 g 2 species in reaction 1.000 Zn++ 1.000 iButyrate- -1.4400 -1.4400 -1.4400 -1.4400 -1.4400 -1.4400 -1.4400 -1.4400 * logK= -1.440000 deltaH= 0.000000 kJ Zn-iValerate+ formula= Zn[(CH3)2CHCH2COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 166.4948 g 2 species in reaction 1.000 Zn++ 1.000 iValerate- -1.3900 -1.3900 -1.3900 -1.3900 -1.3900 -1.3900 -1.3900 -1.3900 * logK= -1.390000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn-Lactate+ formula= Zn[CH3CH(OH)COO]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 154.4406 g 2 species in reaction 1.000 Zn++ 1.000 Lactate- -2.2200 -2.2200 -2.2200 -2.2200 -2.2200 -2.2200 -2.2200 -2.2200 * logK= -2.220000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn-Malate (aq) formula= Zn(C4H4O5) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 197.4425 g 2 species in reaction 1.000 Zn++ 1.000 Malate-- -3.3200 -3.3200 -3.3200 -3.3200 -3.3200 -3.3200 -3.3200 -3.3200 * logK= -3.320000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn-Malonate (aq) formula= Zn[CH2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 167.4163 g 2 species in reaction 1.000 Malonate-- 1.000 Zn++ -3.6476 -3.7480 -3.8400 -3.9407 -4.0322 -4.1157 -4.1922 -4.2625 * logK= -3.840000 deltaH= -12.000000 kJ Zn-Oxalate (aq) formula= Zn[(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 153.3895 g 2 species in reaction 1.000 Zn++ 1.000 Oxalate-- -4.8700 -4.8700 -4.8700 -4.8700 -4.8700 -4.8700 -4.8700 -4.8700 * logK= -4.870000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn-Phthalate (aq) formula= Zn[C6H4(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 229.4871 g 2 species in reaction 1.000 Zn++ 1.000 Phthalate-- -2.7016 -2.8103 -2.9100 -3.0191 -3.1182 -3.2087 -3.2915 -3.3677 * logK= -2.910000 deltaH= -13.000000 kJ Zn-Propionate+ formula= Zn(CH3CH2COO)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 138.4412 g 2 species in reaction 1.000 Zn++ 1.000 Propionate- -1.4400 -1.4400 -1.4400 -1.4400 -1.4400 -1.4400 -1.4400 -1.4400 * logK= -1.440000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn-Sal (aq) formula= Zn(OC6H4COO) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 201.4767 g 2 species in reaction 1.000 Zn++ 1.000 Sal-- -7.6300 -7.6300 -7.6300 -7.6300 -7.6300 -7.6300 -7.6300 -7.6300 * logK= -7.630000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn-Succinate (aq) formula= Zn[(CH2)2(COO)2] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 181.4431 g 2 species in reaction 1.000 Zn++ 1.000 Succinate-- -2.2314 -2.3820 -2.5200 -2.6710 -2.8083 -2.9335 -3.0483 -3.1538 * logK= -2.520000 deltaH= -18.000000 kJ Zn-Tartrate (aq) formula= Zn(C4H4O6) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 213.4419 g 2 species in reaction 1.000 Zn++ 1.000 Tartrate-- -3.4300 -3.4300 -3.4300 -3.4300 -3.4300 -3.4300 -3.4300 -3.4300 * logK= -3.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn2-DTPA- formula= Zn2(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 519.0501 g 2 species in reaction 2.000 Zn++ 1.000 DTPA----- -26.1200 -26.1200 -26.1200 -26.1200 -26.1200 -26.1200 -26.1200 -26.1200 * logK= -26.120000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn2OH+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 147.7471 g 3 species in reaction 2.000 Zn++ -1.000 H+ 1.000 H2O 10.0201 9.4862 8.9970 8.4615 7.9750 7.5310 7.1243 6.7502 * logK= 8.997000 deltaH= -63.810000 kJ Zn2S3-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 226.9318 g 3 species in reaction 2.000 Zn++ -3.000 H+ 3.000 HS- -.3500 -.3500 -.3500 -.3500 -.3500 -.3500 -.3500 -.3500 * logK= -0.350000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn4S6---- charge= -4 ion size= 0.0 A b= 0.0000 mole wt.= 453.8636 g 3 species in reaction 4.000 Zn++ -6.000 H+ 6.000 HS- -1.9300 -1.9300 -1.9300 -1.9300 -1.9300 -1.9300 -1.9300 -1.9300 * logK= -1.930000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn[3-Picoline]++ formula= Zn(C6H7N)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 158.4979 g 2 species in reaction 1.000 3Picol 1.000 Zn++ -1.0000 -1.0000 -1.0000 -1.0000 -1.0000 -1.0000 -1.0000 -1.0000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -1.000000 deltaH= 0.000000 kJ Zn[3-Picoline]2++ formula= Zn(C6H7N)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 251.6259 g 2 species in reaction 2.000 3Picol 1.000 Zn++ -2.1000 -2.1000 -2.1000 -2.1000 -2.1000 -2.1000 -2.1000 -2.1000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.100000 deltaH= 0.000000 kJ Zn[3-Picoline]3++ formula= Zn(C6H7N)3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 344.7539 g 2 species in reaction 3.000 3Picol 1.000 Zn++ -2.6000 -2.6000 -2.6000 -2.6000 -2.6000 -2.6000 -2.6000 -2.6000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.600000 deltaH= 0.000000 kJ Zn[3-Picoline]4++ formula= Zn(C6H7N)4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 437.8819 g 2 species in reaction 4.000 3Picol 1.000 Zn++ -3.7000 -3.7000 -3.7000 -3.7000 -3.7000 -3.7000 -3.7000 -3.7000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -3.700000 deltaH= 0.000000 kJ Zn[4-Picoline]++ formula= Zn(C6H7N)++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 158.4979 g 2 species in reaction 1.000 4Picol 1.000 Zn++ -1.4000 -1.4000 -1.4000 -1.4000 -1.4000 -1.4000 -1.4000 -1.4000 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -1.400000 deltaH= 0.000000 kJ Zn[4-Picoline]2++ formula= Zn(C6H7N)2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 251.6259 g 2 species in reaction 2.000 4Picol 1.000 Zn++ -2.1100 -2.1100 -2.1100 -2.1100 -2.1100 -2.1100 -2.1100 -2.1100 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.110000 deltaH= 0.000000 kJ Zn[4-Picoline]3++ formula= Zn(C6H7N)3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 344.7539 g 2 species in reaction 3.000 4Picol 1.000 Zn++ -2.8500 -2.8500 -2.8500 -2.8500 -2.8500 -2.8500 -2.8500 -2.8500 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.850000 deltaH= 0.000000 kJ Zn[Diethylamine]++ formula= Zn[(CH3CH2)2NH]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 138.5075 g 2 species in reaction 1.000 Zn++ 1.000 DiEtAm -2.7400 -2.7400 -2.7400 -2.7400 -2.7400 -2.7400 -2.7400 -2.7400 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.740000 deltaH= 0.000000 kJ Zn[Diethylamine]2++ formula= Zn[(CH3CH2)2NH]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 211.6451 g 2 species in reaction 1.000 Zn++ 2.000 DiEtAm -5.2700 -5.2700 -5.2700 -5.2700 -5.2700 -5.2700 -5.2700 -5.2700 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -5.270000 deltaH= 0.000000 kJ Zn[Diethylamine]3++ formula= Zn[(CH3CH2)2NH]3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 284.7827 g 2 species in reaction 1.000 Zn++ 3.000 DiEtAm -7.7100 -7.7100 -7.7100 -7.7100 -7.7100 -7.7100 -7.7100 -7.7100 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -7.710000 deltaH= 0.000000 kJ Zn[Diethylamine]4++ formula= Zn[(CH3CH2)2NH]4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 357.9203 g 2 species in reaction 1.000 Zn++ 4.000 DiEtAm -9.8400 -9.8400 -9.8400 -9.8400 -9.8400 -9.8400 -9.8400 -9.8400 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -9.840000 deltaH= 0.000000 kJ Zn[Ethylenediamine]++ formula= Zn[C2H4(NH2)2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 125.4685 g 2 species in reaction 1.000 Zn++ 1.000 EtDiAm -6.1296 -5.8845 -5.6600 -5.4142 -5.1909 -4.9871 -4.8004 -4.6287 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -5.660000 deltaH= 29.288000 kJ Zn[Ethylenediamine]2++ formula= Zn[C2H4(NH2)2]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 185.5671 g 2 species in reaction 1.000 Zn++ 2.000 EtDiAm -11.3715 -10.9689 -10.6000 -10.1962 -9.8294 -9.4946 -9.1879 -8.9058 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -10.600000 deltaH= 48.116000 kJ Zn[Ethylenediamine]3++ formula= Zn[C2H4(NH2)2]3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 245.6657 g 2 species in reaction 1.000 Zn++ 3.000 EtDiAm -15.0472 -14.4485 -13.9000 -13.2996 -12.7541 -12.2563 -11.8002 -11.3808 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -13.900000 deltaH= 71.546400 kJ Zn[Isopropylamine]++ formula= Zn[(CH3)2CHNH2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 124.4807 g 2 species in reaction 1.000 Zn++ 1.000 iPrAm -2.3700 -2.3700 -2.3700 -2.3700 -2.3700 -2.3700 -2.3700 -2.3700 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.370000 deltaH= 0.000000 kJ Zn[Isopropylamine]2++ formula= Zn[(CH3)2CHNH2]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 183.5915 g 2 species in reaction 1.000 Zn++ 2.000 iPrAm -4.6700 -4.6700 -4.6700 -4.6700 -4.6700 -4.6700 -4.6700 -4.6700 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -4.670000 deltaH= 0.000000 kJ Zn[Isopropylamine]3++ formula= Zn[(CH3)2CHNH2]3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 242.7023 g 2 species in reaction 1.000 Zn++ 3.000 iPrAm -7.1400 -7.1400 -7.1400 -7.1400 -7.1400 -7.1400 -7.1400 -7.1400 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -7.140000 deltaH= 0.000000 kJ Zn[Isopropylamine]4++ formula= Zn[(CH3)2CHNH2]4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 301.8131 g 2 species in reaction 1.000 Zn++ 4.000 iPrAm -9.4400 -9.4400 -9.4400 -9.4400 -9.4400 -9.4400 -9.4400 -9.4400 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -9.440000 deltaH= 0.000000 kJ Zn[Phenylacetate]+ formula= Zn(C8H7O2)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 200.5120 g 2 species in reaction 1.000 Zn++ 1.000 PhAcO- -1.5700 -1.5700 -1.5700 -1.5700 -1.5700 -1.5700 -1.5700 -1.5700 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(1) -- using charge field value. * logK= -1.570000 deltaH= 0.000000 kJ Zn[Propylamine]++ formula= Zn[CH3(CH2)2NH2]++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 124.4807 g 2 species in reaction 1.000 Zn++ 1.000 PrAm -2.4200 -2.4200 -2.4200 -2.4200 -2.4200 -2.4200 -2.4200 -2.4200 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -2.420000 deltaH= 0.000000 kJ Zn[Propylamine]2++ formula= Zn[CH3(CH2)2NH2]2++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 183.5915 g 2 species in reaction 1.000 Zn++ 2.000 PrAm -4.8500 -4.8500 -4.8500 -4.8500 -4.8500 -4.8500 -4.8500 -4.8500 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -4.850000 deltaH= 0.000000 kJ Zn[Propylamine]3++ formula= Zn[CH3(CH2)2NH2]3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 242.7023 g 2 species in reaction 1.000 Zn++ 3.000 PrAm -7.3800 -7.3800 -7.3800 -7.3800 -7.3800 -7.3800 -7.3800 -7.3800 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -7.380000 deltaH= 0.000000 kJ Zn[Propylamine]4++ formula= Zn[CH3(CH2)2NH2]4++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 301.8131 g 2 species in reaction 1.000 Zn++ 4.000 PrAm -9.4900 -9.4900 -9.4900 -9.4900 -9.4900 -9.4900 -9.4900 -9.4900 * In thermo.mdb charge in this specie's name(0) does not match the charge given * in the charge field(2) -- using charge field value. * logK= -9.490000 deltaH= 0.000000 kJ ZnBr+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 145.2739 g 2 species in reaction 1.000 Zn++ 1.000 Br- .0860 .0777 .0700 .0616 .0540 .0470 .0407 .0348 * logK= 0.070000 deltaH= -1.000000 kJ ZnCl+ charge= 1 ion size= 4.0 A b= 0.0000 mole wt.= 100.8229 g 2 species in reaction 1.000 Zn++ 1.000 Cl- -.3734 -.4186 -.4600 -.5053 -.5465 -.5841 -.6185 -.6501 * logK= -0.460000 deltaH= -5.400000 kJ ZnCl2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 136.2759 g 2 species in reaction 1.000 Zn++ 2.000 Cl- .1208 -.1771 -.4500 -.7487 -1.0202 -1.2679 -1.4948 -1.7035 * logK= -0.450000 deltaH= -35.600000 kJ ZnCl3- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 171.7289 g 2 species in reaction 1.000 Zn++ 3.000 Cl- .1414 -.1934 -.5000 -.8357 -1.1406 -1.4189 -1.6739 -1.9084 * logK= -0.500000 deltaH= -40.000000 kJ ZnCl4-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 207.1819 g 2 species in reaction 1.000 Zn++ 4.000 Cl- .5360 .1519 -.2000 -.5852 -.9351 -1.2545 -1.5471 -1.8162 * logK= -0.200000 deltaH= -45.900000 kJ ZnCO3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 125.3791 g 2 species in reaction 1.000 Zn++ 1.000 CO3-- -4.7600 -4.7600 -4.7600 -4.7600 -4.7600 -4.7600 -4.7600 -4.7600 * logK= -4.760000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ZnEDTA-- formula= Zn(C10H12N2O8)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 353.5833 g 2 species in reaction 1.000 Zn++ 1.000 EDTA---- -18.3046 -18.1457 -18.0000 -17.8406 -17.6957 -17.5635 -17.4424 -17.3310 * logK= -18.000000 deltaH= 19.000000 kJ ZnEGTA-- formula= Zn(C14H20N2O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 441.6893 g 2 species in reaction 1.000 Zn++ 1.000 EGTA---- -14.6307 -14.4633 -14.3100 -14.1422 -13.9897 -13.8505 -13.7230 -13.6058 * logK= -14.310000 deltaH= 20.000000 kJ ZnF+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 84.3683 g 2 species in reaction 1.000 Zn++ 1.000 F- -1.1236 -1.2157 -1.3000 -1.3923 -1.4762 -1.5527 -1.6228 -1.6873 * logK= -1.300000 deltaH= -11.000000 kJ ZnH-Citrate (aq) formula= ZnH[C3H5O(COO)3] charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 255.4791 g 3 species in reaction 1.000 Zn++ 1.000 H+ 1.000 Citrate--- -10.2400 -10.2400 -10.2400 -10.2400 -10.2400 -10.2400 -10.2400 -10.2400 * logK= -10.240000 deltaH= 0.000000 kJ ZnH-DTPA-- formula= ZnH(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 454.6881 g 3 species in reaction 1.000 Zn++ 1.000 H+ 1.000 DTPA----- -26.5900 -26.5900 -26.5900 -26.5900 -26.5900 -26.5900 -26.5900 -26.5900 * logK= -26.590000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ZnH-Glutarate+ formula= ZnH[C3H6(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 196.4778 g 3 species in reaction 1.000 Zn++ 1.000 H+ 1.000 Glutarate-- -6.7500 -6.7500 -6.7500 -6.7500 -6.7500 -6.7500 -6.7500 -6.7500 * logK= -6.750000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ZnH-Malate+ formula= ZnH(C4H4O5)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 198.4504 g 3 species in reaction 1.000 Zn++ 1.000 H+ 1.000 Malate-- -7.1000 -7.1000 -7.1000 -7.1000 -7.1000 -7.1000 -7.1000 -7.1000 * logK= -7.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ZnH-Malonate+ formula= ZnH[CH2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 168.4242 g 3 species in reaction 1.000 Malonate-- 1.000 Zn++ 1.000 H+ -7.0400 -7.0400 -7.0400 -7.0400 -7.0400 -7.0400 -7.0400 -7.0400 * logK= -7.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ZnH-Succinate+ formula= ZnH[(CH2)2(COO)2]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 182.4510 g 3 species in reaction 1.000 Zn++ 1.000 H+ 1.000 Succinate-- -7.1500 -7.1500 -7.1500 -7.1500 -7.1500 -7.1500 -7.1500 -7.1500 * logK= -7.150000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ZnH-Tartrate+ formula= ZnH(C4H4O6)+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 214.4498 g 3 species in reaction 1.000 Zn++ 1.000 Tartrate-- 1.000 H+ -5.9100 -5.9100 -5.9100 -5.9100 -5.9100 -5.9100 -5.9100 -5.9100 * logK= -5.910000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ZnH2BO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 126.1939 g 3 species in reaction 1.000 Zn++ 1.000 H3BO3 -1.000 H+ 7.8400 7.8400 7.8400 7.8400 7.8400 7.8400 7.8400 7.8400 * logK= 7.840000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ZnH2EDTA (aq) formula= ZnH2(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 355.5991 g 3 species in reaction 1.000 Zn++ 2.000 H+ 1.000 EDTA---- -22.8300 -22.8300 -22.8300 -22.8300 -22.8300 -22.8300 -22.8300 -22.8300 * logK= -22.830000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ZnH2EGTA (aq) formula= ZnH2(C14H20N2O10) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 443.7051 g 3 species in reaction 1.000 Zn++ 1.000 EGTA---- 2.000 H+ -23.2100 -23.2100 -23.2100 -23.2100 -23.2100 -23.2100 -23.2100 -23.2100 * logK= -23.210000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ZnHCO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 126.3870 g 3 species in reaction 1.000 Zn++ 1.000 H+ 1.000 CO3-- -11.8290 -11.8290 -11.8290 -11.8290 -11.8290 -11.8290 -11.8290 -11.8290 * logK= -11.829000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ZnHEDTA- formula= ZnH(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 354.5912 g 3 species in reaction 1.000 Zn++ 1.000 H+ 1.000 EDTA---- -21.8822 -21.6462 -21.4300 -21.1934 -20.9784 -20.7821 -20.6024 -20.4370 * logK= -21.430000 deltaH= 28.200000 kJ ZnHEGTA- formula= ZnH(C14H20N2O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 442.6972 g 3 species in reaction 1.000 Zn++ 1.000 EGTA---- 1.000 H+ -19.7000 -19.7000 -19.7000 -19.7000 -19.7000 -19.7000 -19.7000 -19.7000 * logK= -19.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ZnHPO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 161.3492 g 3 species in reaction 1.000 Zn++ 1.000 H+ 1.000 PO4--- -15.6900 -15.6900 -15.6900 -15.6900 -15.6900 -15.6900 -15.6900 -15.6900 * logK= -15.690000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ZnI+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 192.2743 g 2 species in reaction 1.000 Zn++ 1.000 I- 1.9786 2.0120 2.0427 2.0763 2.1068 2.1346 2.1601 2.1835 * logK= 2.042700 deltaH= 4.000000 kJ ZnI2 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 319.1787 g 2 species in reaction 1.000 Zn++ 2.000 I- 1.6900 1.6900 1.6900 1.6900 1.6900 1.6900 1.6900 1.6900 * logK= 1.690000 deltaH= 0.000000 kJ ZnNH3++ charge= 2 ion size= 0.0 A b= 0.0000 mole wt.= 82.4003 g 3 species in reaction 1.000 Zn++ -1.000 H+ 1.000 NH4+ 7.7034 7.3520 7.0300 6.6776 6.3573 6.0651 5.7974 5.5511 * logK= 7.030000 deltaH= -42.000000 kJ ZnNO2+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 111.3754 g 2 species in reaction 1.000 Zn++ 1.000 NO2- -.7800 -.7800 -.7800 -.7800 -.7800 -.7800 -.7800 -.7800 * logK= -0.780000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ZnNO3+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 127.3748 g 2 species in reaction 1.000 Zn++ 1.000 NO3- -.4738 -.4353 -.4000 -.3614 -.3263 -.2943 -.2650 -.2380 * logK= -0.400000 deltaH= 4.600000 kJ ZnNTA- formula= Zn[N(CH2COO)3]- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 253.4864 g 2 species in reaction 1.000 Zn++ 1.000 NTA--- -11.9202 -11.8783 -11.8400 -11.7980 -11.7599 -11.7251 -11.6933 -11.6639 * logK= -11.840000 deltaH= 5.000000 kJ ZnOH+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 82.3772 g 3 species in reaction 1.000 Zn++ -1.000 H+ 1.000 H2O 9.8919 9.4248 8.9970 8.5287 8.1032 7.7148 7.3590 7.0319 * logK= 8.997000 deltaH= -55.810000 kJ ZnOHEDTA--- formula= ZnOH(C10H12N2O8)--- charge= -3 ion size= 0.0 A b= 0.0000 mole wt.= 370.5906 g 4 species in reaction 1.000 Zn++ -1.000 H+ 1.000 EDTA---- 1.000 H2O -6.1028 -5.9254 -5.7630 -5.5852 -5.4236 -5.2762 -5.1411 -5.0169 * logK= -5.763000 deltaH= 21.190000 kJ ZnOHNTA-- formula= ZnOH[N(CH2COO)3]-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 270.4937 g 4 species in reaction 1.000 Zn++ 1.000 NTA--- -1.000 H+ 1.000 H2O -1.4170 -1.4238 -1.4300 -1.4368 -1.4430 -1.4486 -1.4538 -1.4585 * logK= -1.430000 deltaH= -0.810000 kJ ZnS (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 97.4339 g 3 species in reaction 1.000 Zn++ -1.000 H+ 1.000 HS- 1.4300 1.4300 1.4300 1.4300 1.4300 1.4300 1.4300 1.4300 * logK= 1.430000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ZnS2O3 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 177.4961 g 2 species in reaction 1.000 S2O3-- 1.000 Zn++ -2.1576 -2.2580 -2.3500 -2.4507 -2.5422 -2.6257 -2.7022 -2.7725 * logK= -2.350000 deltaH= -12.000000 kJ ZnSCN+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 123.4516 g 2 species in reaction 1.000 Zn++ 1.000 SCN- -1.4230 -1.3745 -1.3300 -1.2813 -1.2371 -1.1968 -1.1598 -1.1258 * logK= -1.330000 deltaH= 5.800000 kJ ZnSeO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 208.3275 g 2 species in reaction 1.000 Zn++ 1.000 SeO4-- -2.1900 -2.1900 -2.1900 -2.1900 -2.1900 -2.1900 -2.1900 -2.1900 * logK= -2.190000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ZnSO4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 161.4315 g 2 species in reaction 1.000 Zn++ 1.000 SO4-- -2.2406 -2.2925 -2.3400 -2.3920 -2.4393 -2.4824 -2.5220 -2.5583 * logK= -2.340000 deltaH= -6.200000 kJ Zr(OH)4 (aq) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 159.2532 g 3 species in reaction 1.000 Zr++++ -4.000 H+ 4.000 H2O 6.3580 6.3580 6.3580 6.3580 6.3580 6.3580 6.3580 6.3580 * logK= 6.358000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zr(OH)5- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 176.2605 g 3 species in reaction 1.000 Zr++++ -5.000 H+ 5.000 H2O 15.9850 15.9850 15.9850 15.9850 15.9850 15.9850 15.9850 15.9850 * logK= 15.985000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zr-DTPA- formula= Zr(C14H18N3O10)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 479.5343 g 2 species in reaction 1.000 Zr++++ 1.000 DTPA----- -40.1000 -40.1000 -40.1000 -40.1000 -40.1000 -40.1000 -40.1000 -40.1000 * logK= -40.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ZrEDTA (aq) formula= Zr(C10H12N2O8) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 379.4374 g 2 species in reaction 1.000 Zr++++ 1.000 EDTA---- -32.8321 -32.8153 -32.8000 -32.7832 -32.7680 -32.7541 -32.7413 -32.7296 * logK= -32.800000 deltaH= 2.000000 kJ ZrEGTA (aq) formula= Zr(C14H20N2O10) charge= 0 ion size= 0.0 A b= 0.0000 mole wt.= 467.5434 g 2 species in reaction 1.000 Zr++++ 1.000 EGTA---- -26.9791 -26.7030 -26.4500 -26.1731 -25.9215 -25.6919 -25.4815 -25.2880 * logK= -26.450000 deltaH= 33.000000 kJ ZrF+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 110.2224 g 2 species in reaction 1.000 Zr++++ 1.000 F- -9.8866 -9.8414 -9.8000 -9.7547 -9.7135 -9.6759 -9.6415 -9.6099 * logK= -9.800000 deltaH= 5.400000 kJ ZrNTA+ formula= Zr[N(CH2COO)3]+ charge= 1 ion size= 0.0 A b= 0.0000 mole wt.= 279.3405 g 2 species in reaction 1.000 Zr++++ 1.000 NTA--- -23.6992 -23.9083 -24.1000 -24.3098 -24.5004 -24.6743 -24.8337 -24.9803 * logK= -24.100000 deltaH= -25.000000 kJ ZrOH+++ charge= 3 ion size= 0.0 A b= 0.0000 mole wt.= 108.2313 g 3 species in reaction 1.000 Zr++++ -1.000 H+ 1.000 H2O -.3030 -.3030 -.3030 -.3030 -.3030 -.3030 -.3030 -.3030 * logK= -0.303000 deltaH= 0.000000 kJ ZrOH-DTPA-- formula= ZrOH(C14H18N3O10)-- charge= -2 ion size= 0.0 A b= 0.0000 mole wt.= 496.5416 g 4 species in reaction 1.000 Zr++++ -1.000 H+ 1.000 DTPA----- 1.000 H2O -31.7900 -31.7900 -31.7900 -31.7900 -31.7900 -31.7900 -31.7900 -31.7900 * logK= -31.790000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ZrOHEDTA- formula= ZrOH(C10H12N2O8)- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 396.4447 g 4 species in reaction 1.000 Zr++++ -1.000 H+ 1.000 EDTA---- 1.000 H2O 4.3970 4.3970 4.3970 4.3970 4.3970 4.3970 4.3970 4.3970 * logK= 4.397000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C -end- 1 free electron e- charge= -1 ion size= 0.0 A b= 0.0000 mole wt.= 0.0000 g 3 species in reaction .500 H2O -.250 O2(g) -1.000 H+ 23.06385 21.86795 20.77235 19.573075 18.483425 17.48905 16.577975 15.74015 -end- 709 minerals (NH4)2CrO4 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 152.0702 g 2 species in reaction 1.000 CrO4-- 2.000 NH4+ .2577 .3344 .4046 .4815 .5514 .6151 .6735 .7272 * logK= 0.404600 deltaH= 9.163000 kJ (NH4)2SeO4 type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 179.0342 g 2 species in reaction 1.000 SeO4-- 2.000 NH4+ .4500 .4500 .4500 .4500 .4500 .4500 .4500 .4500 * logK= 0.450000 deltaH= 0.000000 kJ (NpO2)2CO3 type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 598.1032 g 2 species in reaction 2.000 NpO2+ 1.000 CO3-- -10.1400 -10.1400 -10.1400 -10.1400 -10.1400 -10.1400 -10.1400 -10.1400 * logK= -10.140000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C (UO2)3(PO4)2 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 1000.0262 g 2 species in reaction 3.000 UO2++ 2.000 PO4--- -55.7665 -52.4439 -49.4000 -46.0680 -43.0407 -40.2780 -37.7467 -35.4190 * logK= -49.400000 deltaH= 397.061600 kJ (VO)3(PO4)2 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 390.7655 g 2 species in reaction 3.000 VO++ 2.000 PO4--- -25.1000 -25.1000 -25.1000 -25.1000 -25.1000 -25.1000 -25.1000 -25.1000 * logK= -25.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C [Co(NH3)5Cl](NO3)2 type= nitrate formula= mole vol.= 0.0000 cc mole wt.= 303.5480 g 5 species in reaction 1.000 Cl- 1.000 Co+++ -5.000 H+ 2.000 NO3- 5.000 NH4+ 6.1858 6.2395 6.2887 6.3426 6.3915 6.4362 6.4771 6.5148 * logK= 6.288700 deltaH= 6.419900 kJ [Co(NH3)5Cl]Br2 type= bromide formula= mole vol.= 0.0000 cc mole wt.= 339.3462 g 5 species in reaction 1.000 Cl- 2.000 Br- 1.000 Co+++ -5.000 H+ 5.000 NH4+ 5.1321 5.0786 5.0295 4.9758 4.9270 4.8825 4.8417 4.8041 * logK= 5.029500 deltaH= -6.400000 kJ [Co(NH3)5Cl]Cl2 type= chloride formula= mole vol.= 0.0000 cc mole wt.= 250.4442 g 4 species in reaction 3.000 Cl- 1.000 Co+++ -5.000 H+ 5.000 NH4+ 4.6824 4.5925 4.5102 4.4201 4.3382 4.2635 4.1950 4.1320 * logK= 4.510200 deltaH= -10.740000 kJ [Co(NH3)5Cl]I2 type= iodide formula= mole vol.= 0.0000 cc mole wt.= 433.3470 g 5 species in reaction 1.000 Cl- 1.000 Co+++ -5.000 H+ 5.000 NH4+ 2.000 I- 5.5875 5.5930 5.5981 5.6036 5.6087 5.6133 5.6175 5.6213 * logK= 5.598100 deltaH= 0.660000 kJ [Co(NH3)5OH2]Cl3 type= chloride formula= mole vol.= 0.0000 cc mole wt.= 268.4594 g 5 species in reaction 3.000 Cl- 1.000 Co+++ -5.000 H+ 5.000 NH4+ 1.000 H2O 12.1419 11.9296 11.7351 11.5222 11.3288 11.1523 10.9905 10.8418 * logK= 11.735100 deltaH= -25.370000 kJ [Co(NH3)6](NO3)3 type= nitrate formula= mole vol.= 0.0000 cc mole wt.= 347.1303 g 4 species in reaction 1.000 Co+++ -6.000 H+ 3.000 NO3- 6.000 NH4+ 17.9088 17.9221 17.9343 17.9476 17.9598 17.9708 17.9810 17.9903 * logK= 17.934300 deltaH= 1.590000 kJ [Co(NH3)6]Br3 type= bromide formula= mole vol.= 0.0000 cc mole wt.= 400.8276 g 4 species in reaction 3.000 Br- 1.000 Co+++ -6.000 H+ 6.000 NH4+ 18.6540 18.4766 18.3142 18.1364 17.9748 17.8274 17.6923 17.5681 * logK= 18.314200 deltaH= -21.189900 kJ [Co(NH3)6]Cl3 type= chloride formula= mole vol.= 0.0000 cc mole wt.= 267.4746 g 4 species in reaction 3.000 Cl- 1.000 Co+++ -6.000 H+ 6.000 NH4+ 20.5624 20.2855 20.0317 19.7539 19.5016 19.2713 19.0603 18.8662 * logK= 20.031700 deltaH= -33.100000 kJ [Co(NH3)6]I3 type= iodide formula= mole vol.= 0.0000 cc mole wt.= 541.8288 g 4 species in reaction 1.000 Co+++ -6.000 H+ 6.000 NH4+ 3.000 I- 16.7386 16.6575 16.5831 16.5017 16.4277 16.3603 16.2984 16.2416 * logK= 16.583100 deltaH= -9.699900 kJ Acanthite type= sulfide formula= Ag2S mole vol.= 0.0000 cc mole wt.= 247.8000 g 3 species in reaction -1.000 H+ 1.000 HS- 2.000 Ag+ -39.8597 -37.9602 -36.2200 -34.3151 -32.5844 -31.0050 -29.5578 -28.2271 * logK= -36.220000 deltaH= 227.000000 kJ Ag metal type= elemental formula= Ag mole vol.= 0.0000 cc mole wt.= 107.8680 g 4 species in reaction -1.000 H+ -.250 O2(aq) .500 H2O 1.000 Ag+ 8.5794 8.2841 8.0135 7.7173 7.4482 7.2026 6.9776 6.7707 * logK= 8.013500 deltaH= -35.294693 kJ Ag-Acetate type= acetate formula= Ag(CH3COO) mole vol.= 0.0000 cc mole wt.= 166.9125 g 2 species in reaction 1.000 Acetate- 1.000 Ag+ -2.7100 -2.7100 -2.7100 -2.7100 -2.7100 -2.7100 -2.7100 -2.7100 * logK= -2.710000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ag2(CN)2 type= cyanide formula= mole vol.= 0.0000 cc mole wt.= 267.7714 g 2 species in reaction 2.000 Ag+ 2.000 CN- -11.3289 -11.3289 -11.3289 -11.3289 -11.3289 -11.3289 -11.3289 -11.3289 * logK= -11.328900 deltaH= 0.000000 kJ Ag2CO3 type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 275.7452 g 2 species in reaction 1.000 CO3-- 2.000 Ag+ -11.7658 -11.4131 -11.0900 -10.7363 -10.4149 -10.1217 -9.8530 -9.6058 * logK= -11.090000 deltaH= 42.150000 kJ Ag2CrO4 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 331.7296 g 2 species in reaction 1.000 CrO4-- 2.000 Ag+ -12.5841 -12.0653 -11.5900 -11.0697 -10.5970 -10.1656 -9.7704 -9.4069 * logK= -11.590000 deltaH= 62.000000 kJ Ag2HVO4 type= vanadate formula= mole vol.= 0.0000 cc mole wt.= 331.6830 g 2 species in reaction 2.000 Ag+ 1.000 HVO4-- -13.6700 -13.6700 -13.6700 -13.6700 -13.6700 -13.6700 -13.6700 -13.6700 * logK= -13.670000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ag2MoO4 type= molybdate formula= mole vol.= 0.0000 cc mole wt.= 375.6736 g 2 species in reaction 1.000 MoO4-- 2.000 Ag+ -12.3950 -11.9540 -11.5500 -11.1078 -10.7060 -10.3393 -10.0033 -9.6944 * logK= -11.550000 deltaH= 52.700000 kJ Ag2O type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 231.7354 g 3 species in reaction -2.000 H+ 1.000 H2O 2.000 Ag+ 13.3055 12.9237 12.5740 12.1912 11.8434 11.5259 11.2351 10.9677 * logK= 12.574000 deltaH= -45.620000 kJ Ag2Se type= selenide formula= mole vol.= 0.0000 cc mole wt.= 294.6960 g 3 species in reaction 1.000 HSe- -1.000 H+ 2.000 Ag+ -52.9567 -50.7352 -48.7000 -46.4722 -44.4481 -42.6009 -40.9085 -39.3521 * logK= -48.700000 deltaH= 265.480000 kJ Ag2SeO3 type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 342.6942 g 3 species in reaction -1.000 H+ 1.000 HSeO3- 2.000 Ag+ -7.7865 -7.4543 -7.1500 -6.8169 -6.5142 -6.2379 -5.9849 -5.7521 * logK= -7.150000 deltaH= 39.700000 kJ Ag2SeO4 type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 358.6936 g 2 species in reaction 1.000 SeO4-- 2.000 Ag+ -8.2125 -8.5765 -8.9100 -9.2750 -9.6067 -9.9094 -10.1867 -10.4417 * logK= -8.910000 deltaH= -43.500000 kJ Ag2SO3 type= sulfite formula= mole vol.= 0.0000 cc mole wt.= 295.7982 g 2 species in reaction 2.000 Ag+ 1.000 SO3-- -13.8200 -13.8200 -13.8200 -13.8200 -13.8200 -13.8200 -13.8200 -13.8200 * logK= -13.820000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ag2SO4 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 311.7976 g 2 species in reaction 2.000 Ag+ 1.000 SO4-- -5.0926 -4.9503 -4.8200 -4.6773 -4.5477 -4.4294 -4.3211 -4.2214 * logK= -4.820000 deltaH= 17.000000 kJ Ag3AsO3 type= formula= mole vol.= 0.0000 cc mole wt.= 446.5238 g 3 species in reaction 1.000 H3AsO3 -3.000 H+ 3.000 Ag+ 2.1573 2.1573 2.1573 2.1573 2.1573 2.1573 2.1573 2.1573 * logK= 2.157300 deltaH= 0.000000 kJ Ag3AsO4 type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 462.5232 g 2 species in reaction 1.000 AsO4--- 3.000 Ag+ -23.5000 -23.5000 -23.5000 -23.5000 -23.5000 -23.5000 -23.5000 -23.5000 * logK= -23.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ag3Fe(CN)6 type= cyanide formula= mole vol.= 0.0000 cc mole wt.= 535.5572 g 3 species in reaction 1.000 Fe+++ 3.000 Ag+ 6.000 CN- -72.7867 -72.7867 -72.7867 -72.7867 -72.7867 -72.7867 -72.7867 -72.7867 * logK= -72.786700 deltaH= 0.000000 kJ Ag3H2VO5 type= vanadate formula= mole vol.= 0.0000 cc mole wt.= 456.5583 g 4 species in reaction -1.000 H+ 1.000 H2O 3.000 Ag+ 1.000 HVO4-- -9.9700 -9.9700 -9.9700 -9.9700 -9.9700 -9.9700 -9.9700 -9.9700 * logK= -9.970000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ag3PO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 418.5754 g 2 species in reaction 1.000 PO4--- 3.000 Ag+ -17.5900 -17.5900 -17.5900 -17.5900 -17.5900 -17.5900 -17.5900 -17.5900 * logK= -17.590000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ag4Fe(CN)6 type= cyanide formula= mole vol.= 0.0000 cc mole wt.= 643.4252 g 3 species in reaction 1.000 Fe++ 4.000 Ag+ 6.000 CN- -79.4700 -79.4700 -79.4700 -79.4700 -79.4700 -79.4700 -79.4700 -79.4700 * logK= -79.470000 deltaH= 0.000000 kJ Ag4Sb type= antimonide formula= mole vol.= 0.0000 cc mole wt.= 445.3540 g 4 species in reaction -3.000 H+ -1.500 O2(aq) 1.000 Sb(OH)3 3.000 Ag+ 86.5111 79.4277 72.9382 65.8347 59.3806 53.4908 48.0943 43.1316 * logK= 72.938200 deltaH= -846.508158 kJ AgCN type= cyanide formula= mole vol.= 0.0000 cc mole wt.= 133.8857 g 2 species in reaction 1.000 Ag+ 1.000 CN- -17.5101 -16.5863 -15.7400 -14.8136 -13.9719 -13.2038 -12.5001 -11.8529 * logK= -15.740000 deltaH= 110.394800 kJ AgF:4H2O type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 198.9272 g 3 species in reaction 1.000 F- 4.000 H2O 1.000 Ag+ .8019 .9309 1.0491 1.1785 1.2961 1.4034 1.5017 1.5921 * logK= 1.049100 deltaH= 15.420200 kJ AgNO2 type= nitrite formula= mole vol.= 0.0000 cc mole wt.= 153.8735 g 2 species in reaction 1.000 Ag+ 1.000 NO2- -5.1241 -4.6053 -4.1300 -3.6097 -3.1370 -2.7056 -2.3104 -1.9469 * logK= -4.130000 deltaH= 62.000000 kJ AgOCN type= cyanate formula= mole vol.= 0.0000 cc mole wt.= 149.8851 g 2 species in reaction 1.000 OCN- 1.000 Ag+ -6.6400 -6.6400 -6.6400 -6.6400 -6.6400 -6.6400 -6.6400 -6.6400 * logK= -6.640000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AgSCN type= thiocyanate formula= mole vol.= 0.0000 cc mole wt.= 165.9497 g 2 species in reaction 1.000 SCN- 1.000 Ag+ -13.4852 -12.6945 -11.9700 -11.1770 -10.4565 -9.7990 -9.1965 -8.6425 * logK= -11.970000 deltaH= 94.500000 kJ AgVO3 type= vanadate formula= mole vol.= 0.0000 cc mole wt.= 206.8077 g 4 species in reaction 1.000 H+ -1.000 H2O 1.000 Ag+ 1.000 HVO4-- -14.3800 -14.3800 -14.3800 -14.3800 -14.3800 -14.3800 -14.3800 -14.3800 * logK= -14.380000 deltaH= 0.000000 kJ Al(OH)3 (am) type= oxide and hydroxide formula= Al(OH)3 mole vol.= 0.0000 cc mole wt.= 78.0034 g 3 species in reaction -3.000 H+ 1.000 Al+++ 3.000 H2O 12.5798 11.6509 10.8000 9.8685 9.0222 8.2499 7.5423 6.8916 * logK= 10.800000 deltaH= -111.000000 kJ Al(OH)3 (Soil) type= oxide and hydroxide formula= Al(OH)3 mole vol.= 0.0000 cc mole wt.= 78.0034 g 3 species in reaction -3.000 H+ 1.000 Al+++ 3.000 H2O 9.9736 9.0949 8.2900 7.4089 6.6083 5.8778 5.2084 4.5928 * logK= 8.290000 deltaH= -105.000000 kJ Al2(MoO4)3 type= molybdate formula= mole vol.= 0.0000 cc mole wt.= 533.7758 g 2 species in reaction 2.000 Al+++ 3.000 MoO4-- 6.5492 4.3668 2.3675 .1790 -1.8095 -3.6240 -5.2866 -6.8156 * logK= 2.367500 deltaH= -260.800000 kJ Al2O3 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 101.9612 g 3 species in reaction -6.000 H+ 2.000 Al+++ 3.000 H2O 23.7986 21.6348 19.6524 17.4824 15.5108 13.7116 12.0631 10.5471 * logK= 19.652400 deltaH= -258.590100 kJ Al4(OH)10SO4 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 374.0606 g 4 species in reaction -10.000 H+ 4.000 Al+++ 10.000 H2O 1.000 SO4-- 22.7000 22.7000 22.7000 22.7000 22.7000 22.7000 22.7000 22.7000 * logK= 22.700000 deltaH= 0.000000 kJ AlAsO4:2H2O type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 201.9311 g 3 species in reaction 1.000 Al+++ 1.000 AsO4--- 2.000 H2O -15.8000 -15.8000 -15.8000 -15.8000 -15.8000 -15.8000 -15.8000 -15.8000 * logK= -15.800000 deltaH= 0.000000 kJ AlOHF2 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 81.9856 g 4 species in reaction -1.000 H+ 1.000 Al+++ 2.000 F- 1.000 H2O .4070 .4070 .4070 .4070 .4070 .4070 .4070 .4070 * logK= 0.407000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AlOHSO4 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 140.0504 g 4 species in reaction -1.000 H+ 1.000 Al+++ 1.000 H2O 1.000 SO4-- -3.2300 -3.2300 -3.2300 -3.2300 -3.2300 -3.2300 -3.2300 -3.2300 * logK= -3.230000 deltaH= 0.000000 kJ AlSb type= antimonide formula= mole vol.= 0.0000 cc mole wt.= 148.7315 g 4 species in reaction -3.000 H+ 1.000 Al+++ -1.500 O2(aq) 1.000 Sb(OH)3 208.3170 201.2336 194.7441 187.6406 181.1865 175.2967 169.9002 164.9375 * logK= 194.744100 deltaH= -846.508158 kJ Alunite type= sulfate formula= KAl3(SO4)2(OH)6 mole vol.= 0.0000 cc mole wt.= 414.2135 g 5 species in reaction -6.000 H+ 3.000 Al+++ 6.000 H2O 1.000 K+ 2.000 SO4-- 1.9671 .2099 -1.4000 -3.1622 -4.7633 -6.2245 -7.5632 -8.7944 * logK= -1.400000 deltaH= -210.000000 kJ Am(OH)3 (am) type= oxide and hydroxide formula= Am(OH)3 mole vol.= 0.0000 cc mole wt.= 294.0219 g 3 species in reaction -3.000 H+ 1.000 Am+++ 3.000 H2O 16.8900 16.8900 16.8900 16.8900 16.8900 16.8900 16.8900 16.8900 * logK= 16.890000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Am(OH)3 (c) type= oxide and hydroxide formula= Am(OH)3 mole vol.= 0.0000 cc mole wt.= 294.0219 g 3 species in reaction -3.000 H+ 1.000 Am+++ 3.000 H2O 15.1900 15.1900 15.1900 15.1900 15.1900 15.1900 15.1900 15.1900 * logK= 15.190000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Am2(CO3)3 type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 666.0276 g 2 species in reaction 2.000 Am+++ 3.000 CO3-- -32.9000 -32.9000 -32.9000 -32.9000 -32.9000 -32.9000 -32.9000 -32.9000 * logK= -32.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C AmF3 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 299.9952 g 2 species in reaction 1.000 Am+++ 3.000 F- -16.5900 -16.5900 -16.5900 -16.5900 -16.5900 -16.5900 -16.5900 -16.5900 * logK= -16.590000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Anglesite type= sulfate formula= PbSO4 mole vol.= 0.0000 cc mole wt.= 303.2515 g 2 species in reaction 1.000 Pb++ 1.000 SO4-- -7.9824 -7.8820 -7.7900 -7.6893 -7.5978 -7.5143 -7.4378 -7.3675 * logK= -7.790000 deltaH= 12.000000 kJ Anhydrite type= sulfate formula= CaSO4 mole vol.= 0.0000 cc mole wt.= 136.1416 g 2 species in reaction 1.000 Ca++ 1.000 SO4-- -4.2446 -4.3048 -4.3600 -4.4204 -4.4753 -4.5254 -4.5713 -4.6135 * logK= -4.360000 deltaH= -7.200000 kJ Anilite type= sulfide formula= Cu1.75S mole vol.= 0.0000 cc mole wt.= 143.2695 g 4 species in reaction .250 Cu++ -1.000 H+ 1.500 Cu+ 1.000 HS- -34.7986 -33.2744 -31.8780 -30.3495 -28.9607 -27.6933 -26.5321 -25.4643 * logK= -31.878000 deltaH= 182.150400 kJ Antlerite type= sulfate formula= Cu3(SO4)(OH)4 mole vol.= 0.0000 cc mole wt.= 354.7288 g 4 species in reaction 3.000 Cu++ -4.000 H+ 4.000 H2O 1.000 SO4-- 8.7880 8.7880 8.7880 8.7880 8.7880 8.7880 8.7880 8.7880 * logK= 8.788000 deltaH= 0.000000 kJ Aragonite type= carbonate formula= CaCO3 mole vol.= 0.0000 cc mole wt.= 100.0892 g 2 species in reaction 1.000 CO3-- 1.000 Ca++ -8.2180 -8.2667 -8.3361 -8.4462 -8.5850 -8.7519 -8.9459 -9.1659 * logK= -8.340000 deltaH= -8.000000 kJ * analytic data = 171.9773 .077993 -2903.293 -71.595 0 0 0 Arsenolite type= multiple oxide formula= As2O3 mole vol.= 0.0000 cc mole wt.= 197.8414 g 2 species in reaction 2.000 H3AsO3 -3.000 H2O -1.8617 -1.6103 -1.3800 -1.1279 -.8989 -.6898 -.4983 -.3222 * Weight read from thermo.mdb (395.6826) does not match weight computed from * components (197.8414) -- using weight computed from components. * logK= -1.380000 deltaH= 30.041000 kJ Artinite type= carbonate formula= Mg2(CO3)(OH)2:3H2O mole vol.= 0.0000 cc mole wt.= 196.6934 g 4 species in reaction -2.000 H+ 1.000 CO3-- 5.000 H2O 2.000 Mg++ 11.5282 10.5219 9.6000 8.5909 7.6740 6.8373 6.0706 5.3656 * logK= 9.600000 deltaH= -120.256500 kJ As2O5 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 229.8402 g 3 species in reaction 6.000 H+ 2.000 AsO4--- -3.000 H2O -34.7407 -34.7142 -34.6900 -34.6635 -34.6394 -34.6174 -34.5973 -34.5787 * logK= -34.690000 deltaH= 3.160000 kJ As2S3(am) type= formula= mole vol.= 0.0000 cc mole wt.= 246.0352 g 4 species in reaction 2.000 H3AsO3 3.000 H+ 3.000 HS- -6.000 H2O -48.8155 -46.7721 -44.9000 -42.8508 -40.9889 -39.2898 -37.7330 -36.3014 * logK= -44.900000 deltaH= 244.200000 kJ AsI3 type= iodide formula= mole vol.= 0.0000 cc mole wt.= 455.6348 g 4 species in reaction 1.000 H3AsO3 3.000 H+ 3.000 I- -3.000 H2O 4.1802 4.2066 4.2307 4.2571 4.2812 4.3031 4.3231 4.3416 * logK= 4.230700 deltaH= 3.150000 kJ Atacamite type= chloride formula= Cu2Cl(OH)3 mole vol.= 0.0000 cc mole wt.= 213.5669 g 4 species in reaction 2.000 Cu++ 1.000 Cl- -3.000 H+ 3.000 H2O 8.8891 8.1073 7.3910 6.6070 5.8946 5.2446 4.6489 4.1012 * logK= 7.391000 deltaH= -93.430000 kJ Autunite type= phosphate formula= Ca(UO2)2(PO4)2 mole vol.= 0.0000 cc mole wt.= 770.0784 g 3 species in reaction 2.000 UO2++ 2.000 PO4--- 1.000 Ca++ -42.9650 -43.4670 -43.9270 -44.4305 -44.8879 -45.3054 -45.6879 -46.0396 * logK= -43.927000 deltaH= -59.998600 kJ Avicennite type= oxide and hydroxide formula= Tl2O3 mole vol.= 0.0000 cc mole wt.= 456.7382 g 2 species in reaction 2.000 Tl(OH)3 -3.000 H2O -13.0000 -13.0000 -13.0000 -13.0000 -13.0000 -13.0000 -13.0000 -13.0000 * logK= -13.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Azurite type= carbonate formula= Cu3(CO3)2(OH)2 mole vol.= 0.0000 cc mole wt.= 344.6710 g 4 species in reaction 3.000 Cu++ -2.000 H+ 2.000 H2O 2.000 CO3-- -16.7490 -17.0888 -17.4000 -17.7407 -18.0502 -18.3327 -18.5916 -18.8296 * logK= -17.400000 deltaH= -40.600000 kJ Ba(OH)2:8H2O type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 315.4762 g 3 species in reaction -2.000 H+ 1.000 Ba++ 10.000 H2O 25.2650 24.8104 24.3940 23.9382 23.5240 23.1461 22.7998 22.4813 * logK= 24.394000 deltaH= -54.320000 kJ Ba-Oxalate type= oxalate formula= Ba[(COO)2] mole vol.= 0.0000 cc mole wt.= 225.3596 g 2 species in reaction 1.000 Ba++ 1.000 Oxalate-- -6.8600 -6.8600 -6.8600 -6.8600 -6.8600 -6.8600 -6.8600 -6.8600 * logK= -6.860000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ba2V2O7:2H2O type= vanadate formula= mole vol.= 0.0000 cc mole wt.= 524.5892 g 3 species in reaction 2.000 Ba++ 1.000 H2O 2.000 HVO4-- -15.9300 -15.9300 -15.9300 -15.9300 -15.9300 -15.9300 -15.9300 -15.9300 * logK= -15.930000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ba3(VO4)2:4H2O type= vanadate formula= mole vol.= 0.0000 cc mole wt.= 713.9590 g 4 species in reaction -2.000 H+ 3.000 Ba++ 4.000 H2O 2.000 HVO4-- 1.1400 1.1400 1.1400 1.1400 1.1400 1.1400 1.1400 1.1400 * logK= 1.140000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BaCrO4 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 253.3336 g 2 species in reaction 1.000 CrO4-- 1.000 Ba++ -10.1991 -9.9230 -9.6700 -9.3931 -9.1415 -8.9119 -8.7015 -8.5080 * logK= -9.670000 deltaH= 33.000000 kJ BaF2 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 175.3368 g 2 species in reaction 1.000 Ba++ 2.000 F- -5.8841 -5.8507 -5.8200 -5.7864 -5.7559 -5.7281 -5.7026 -5.6792 * logK= -5.820000 deltaH= 4.000000 kJ BaHAsO4:H2O type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 295.2823 g 4 species in reaction 1.000 H+ 1.000 AsO4--- 1.000 Ba++ 1.000 H2O -24.6400 -24.6400 -24.6400 -24.6400 -24.6400 -24.6400 -24.6400 -24.6400 * logK= -24.640000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BaHPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 233.3193 g 3 species in reaction 1.000 H+ 1.000 PO4--- 1.000 Ba++ -19.7750 -19.7750 -19.7750 -19.7750 -19.7750 -19.7750 -19.7750 -19.7750 * logK= -19.775000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BaMoO4 type= molybdate formula= mole vol.= 0.0000 cc mole wt.= 297.2776 g 2 species in reaction 1.000 MoO4-- 1.000 Ba++ -7.1360 -7.0443 -6.9603 -6.8683 -6.7848 -6.7085 -6.6386 -6.5744 * logK= -6.960300 deltaH= 10.960000 kJ Barite type= sulfate formula= BaSO4 mole vol.= 0.0000 cc mole wt.= 233.4016 g 2 species in reaction 1.000 Ba++ 1.000 SO4-- -10.3488 -10.1563 -9.9800 -9.7870 -9.6116 -9.4516 -9.3050 -9.1701 * logK= -9.980000 deltaH= 23.000000 kJ BaS type= sulfide formula= mole vol.= 0.0000 cc mole wt.= 169.4040 g 3 species in reaction -1.000 H+ 1.000 HS- 1.000 Ba++ 16.1800 16.1800 16.1800 16.1800 16.1800 16.1800 16.1800 16.1800 * logK= 16.180000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BaS2O3 type= thiosulfate formula= mole vol.= 0.0000 cc mole wt.= 249.4662 g 2 species in reaction 1.000 S2O3-- 1.000 Ba++ -4.7900 -4.7900 -4.7900 -4.7900 -4.7900 -4.7900 -4.7900 -4.7900 * logK= -4.790000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BaSeO3 type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 264.2982 g 3 species in reaction -1.000 H+ 1.000 Ba++ 1.000 HSeO3- 1.6376 1.7380 1.8300 1.9307 2.0222 2.1057 2.1822 2.2525 * logK= 1.830000 deltaH= 12.000000 kJ BaSeO4 type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 280.2976 g 2 species in reaction 1.000 SeO4-- 1.000 Ba++ -7.8127 -7.6287 -7.4600 -7.2754 -7.1076 -6.9546 -6.8143 -6.6854 * logK= -7.460000 deltaH= 22.000000 kJ Bassettite type= phosphate formula= Fe(UO2)2(PO4)2 mole vol.= 0.0000 cc mole wt.= 785.8454 g 3 species in reaction 1.000 Fe++ 2.000 UO2++ 2.000 PO4--- -43.1500 -43.8467 -44.4850 -45.1837 -45.8185 -46.3978 -46.9286 -47.4167 * logK= -44.485000 deltaH= -83.261600 kJ Be(OH)2 (alpha) type= oxide and hydroxide formula= Be(OH)2 mole vol.= 0.0000 cc mole wt.= 43.0268 g 3 species in reaction -2.000 H+ 2.000 H2O 1.000 Be++ 6.8940 6.8940 6.8940 6.8940 6.8940 6.8940 6.8940 6.8940 * logK= 6.894000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Be(OH)2 (am) type= oxide and hydroxide formula= Be(OH)2 mole vol.= 0.0000 cc mole wt.= 43.0268 g 3 species in reaction -2.000 H+ 2.000 H2O 1.000 Be++ 7.1940 7.1940 7.1940 7.1940 7.1940 7.1940 7.1940 7.1940 * logK= 7.194000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Be(OH)2 (beta) type= oxide and hydroxide formula= Be(OH)2 mole vol.= 0.0000 cc mole wt.= 43.0268 g 3 species in reaction -2.000 H+ 2.000 H2O 1.000 Be++ 6.4940 6.4940 6.4940 6.4940 6.4940 6.4940 6.4940 6.4940 * logK= 6.494000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BeMoO4 type= molybdate formula= mole vol.= 0.0000 cc mole wt.= 168.9498 g 2 species in reaction 1.000 MoO4-- 1.000 Be++ -.8774 -1.3493 -1.7817 -2.2550 -2.6850 -3.0774 -3.4370 -3.7676 * logK= -1.781700 deltaH= -56.400000 kJ BeS type= sulfide formula= mole vol.= 0.0000 cc mole wt.= 41.0762 g 3 species in reaction -1.000 H+ 1.000 HS- 1.000 Be++ 19.3800 19.3800 19.3800 19.3800 19.3800 19.3800 19.3800 19.3800 * logK= 19.380000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BeSeO4:4H2O type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 224.0306 g 3 species in reaction 1.000 SeO4-- 4.000 H2O 1.000 Be++ -2.9400 -2.9400 -2.9400 -2.9400 -2.9400 -2.9400 -2.9400 -2.9400 * logK= -2.940000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Bi2S3 type= sulfide formula= mole vol.= 0.0000 cc mole wt.= 514.1520 g 3 species in reaction -3.000 H+ 3.000 HS- 2.000 Bi+++ -41.0600 -41.0600 -41.0600 -41.0600 -41.0600 -41.0600 -41.0600 -41.0600 * logK= -41.060000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Bianchite type= sulfate formula= ZnSO4:6H2O mole vol.= 0.0000 cc mole wt.= 269.5227 g 3 species in reaction 1.000 Zn++ 6.000 H2O 1.000 SO4-- -1.7543 -1.7599 -1.7650 -1.7706 -1.7757 -1.7804 -1.7846 -1.7886 * logK= -1.765000 deltaH= -0.669400 kJ BiOBr type= bromide formula= mole vol.= 0.0000 cc mole wt.= 304.8834 g 4 species in reaction 1.000 Br- -2.000 H+ 1.000 Bi+++ 1.000 H2O -7.4500 -7.4500 -7.4500 -7.4500 -7.4500 -7.4500 -7.4500 -7.4500 * logK= -7.450000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C BiOCl type= chloride formula= mole vol.= 0.0000 cc mole wt.= 260.4324 g 4 species in reaction 1.000 Cl- -2.000 H+ 1.000 Bi+++ 1.000 H2O -7.8641 -7.8307 -7.8000 -7.7664 -7.7359 -7.7081 -7.6826 -7.6592 * logK= -7.800000 deltaH= 4.000000 kJ Birnessite type= oxide and hydroxide formula= MnO2 mole vol.= 0.0000 cc mole wt.= 86.9368 g 4 species in reaction -3.000 H+ .250 O2(aq) 1.000 Mn+++ 1.500 H2O -5.6912 -4.5106 -3.4290 -2.2451 -1.1694 -.1878 .7117 1.5388 * logK= -3.429000 deltaH= 141.084693 kJ Bixbyite type= multiple oxide formula= Mn2O3 mole vol.= 0.0000 cc mole wt.= 157.8742 g 3 species in reaction -6.000 H+ 2.000 Mn+++ 3.000 H2O 1.3516 .3099 -.6445 -1.6892 -2.6383 -3.5045 -4.2981 -5.0279 * logK= -0.644500 deltaH= -124.490000 kJ Blaublei I type= sulfide formula= Cu1.1S mole vol.= 0.0000 cc mole wt.= 101.9646 g 4 species in reaction .900 Cu++ -1.000 H+ .200 Cu+ 1.000 HS- -24.1620 -24.1620 -24.1620 -24.1620 -24.1620 -24.1620 -24.1620 -24.1620 * logK= -24.162000 deltaH= 0.000000 kJ Blaublei II type= sulfide formula= Cu1.4S mole vol.= 0.0000 cc mole wt.= 121.0284 g 4 species in reaction .600 Cu++ -1.000 H+ .800 Cu+ 1.000 HS- -27.2790 -27.2790 -27.2790 -27.2790 -27.2790 -27.2790 -27.2790 -27.2790 * logK= -27.279000 deltaH= 0.000000 kJ Boehmite type= oxide and hydroxide formula= AlOOH mole vol.= 0.0000 cc mole wt.= 59.9882 g 3 species in reaction -3.000 H+ 1.000 Al+++ 2.000 H2O 10.4651 9.4803 8.5780 7.5903 6.6930 5.8741 5.1238 4.4338 * logK= 8.578000 deltaH= -117.695900 kJ Breithauptite type= antimonide formula= NiSb mole vol.= 0.0000 cc mole wt.= 180.4600 g 5 species in reaction -2.000 H+ -1.250 O2(aq) 1.000 Sb(OH)3 1.000 Ni++ -.500 H2O 98.8490 93.7494 89.0775 83.9635 79.3171 75.0768 71.1918 67.6190 * logK= 89.077500 deltaH= -609.421565 kJ Brochantite type= sulfate formula= Cu4(SO4)(OH)6 mole vol.= 0.0000 cc mole wt.= 452.2894 g 4 species in reaction 4.000 Cu++ -6.000 H+ 6.000 H2O 1.000 SO4-- 18.4747 16.7772 15.2220 13.5197 11.9730 10.5616 9.2683 8.0791 * logK= 15.222000 deltaH= -202.860000 kJ Bromyrite type= bromide formula= AgBr mole vol.= 0.0000 cc mole wt.= 187.7720 g 2 species in reaction 1.000 Br- 1.000 Ag+ -13.6549 -12.9478 -12.3000 -11.5909 -10.9467 -10.3587 -9.8200 -9.3247 * logK= -12.300000 deltaH= 84.500000 kJ Brucite type= oxide and hydroxide formula= Mg(OH)2 mole vol.= 0.0000 cc mole wt.= 58.3266 g 3 species in reaction -2.000 H+ 2.000 H2O 1.000 Mg++ 18.9279 17.9739 17.1000 16.1434 15.2742 14.4810 13.7542 13.0859 * logK= 17.100000 deltaH= -114.000000 kJ Ca(VO3)2 type= vanadate formula= mole vol.= 0.0000 cc mole wt.= 237.9594 g 4 species in reaction 2.000 H+ -2.000 H2O 1.000 Ca++ 2.000 HVO4-- -25.2841 -24.9480 -24.6400 -24.3029 -23.9966 -23.7171 -23.4611 -23.2256 * logK= -24.640000 deltaH= 40.170000 kJ Ca-Oxalate:3H2O type= oxalate formula= Ca[(COO)2]:3H2O mole vol.= 0.0000 cc mole wt.= 182.1452 g 3 species in reaction 1.000 Oxalate-- 3.000 H2O 1.000 Ca++ -8.3200 -8.3200 -8.3200 -8.3200 -8.3200 -8.3200 -8.3200 -8.3200 * logK= -8.320000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ca-Oxalate:H2O type= oxalate formula= Ca[(COO)2]:H2O mole vol.= 0.0000 cc mole wt.= 146.1148 g 3 species in reaction 1.000 Oxalate-- 1.000 H2O 1.000 Ca++ -8.7500 -8.7500 -8.7500 -8.7500 -8.7500 -8.7500 -8.7500 -8.7500 * logK= -8.750000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ca2V2O7 type= vanadate formula= mole vol.= 0.0000 cc mole wt.= 294.0388 g 3 species in reaction -1.000 H2O 2.000 Ca++ 2.000 HVO4-- -12.2459 -12.5351 -12.8000 -13.0900 -13.3535 -13.5940 -13.8143 -14.0169 * logK= -12.800000 deltaH= -34.560000 kJ Ca2V2O7:2H2O type= vanadate formula= mole vol.= 0.0000 cc mole wt.= 330.0692 g 3 species in reaction 1.000 H2O 2.000 Ca++ 2.000 HVO4-- -10.2500 -10.2500 -10.2500 -10.2500 -10.2500 -10.2500 -10.2500 -10.2500 * logK= -10.250000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ca3(AsO4)2:4H2O type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 470.1392 g 3 species in reaction 2.000 AsO4--- 4.000 H2O 3.000 Ca++ -18.9000 -18.9000 -18.9000 -18.9000 -18.9000 -18.9000 -18.9000 -18.9000 * logK= -18.900000 deltaH= 0.000000 kJ Ca3(PO4)2 (beta) type= phosphate formula= Ca3(PO4)2 mole vol.= 0.0000 cc mole wt.= 310.1828 g 2 species in reaction 2.000 PO4--- 3.000 Ca++ -29.7858 -29.3340 -28.9200 -28.4669 -28.0551 -27.6794 -27.3352 -27.0186 * logK= -28.920000 deltaH= 54.000000 kJ Ca3(VO4)2 type= vanadate formula= mole vol.= 0.0000 cc mole wt.= 350.1182 g 3 species in reaction -2.000 H+ 3.000 Ca++ 2.000 HVO4-- 11.3627 9.9522 8.6600 7.2455 5.9604 4.7875 3.7130 2.7248 * logK= 8.660000 deltaH= -168.560000 kJ Ca3(VO4)2:4H2O type= vanadate formula= mole vol.= 0.0000 cc mole wt.= 422.1790 g 4 species in reaction -2.000 H+ 4.000 H2O 3.000 Ca++ 2.000 HVO4-- 8.0600 8.0600 8.0600 8.0600 8.0600 8.0600 8.0600 8.0600 * logK= 8.060000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ca3Sb2 type= antimonide formula= mole vol.= 0.0000 cc mole wt.= 363.7400 g 4 species in reaction -6.000 H+ -3.000 O2(aq) 2.000 Sb(OH)3 3.000 Ca++ 440.1084 419.8101 401.2138 380.8579 362.3630 345.4850 330.0208 315.7999 * logK= 401.213800 deltaH= -2425.760316 kJ Ca4H(PO4)3:3H2O type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 500.2877 g 4 species in reaction 1.000 H+ 3.000 PO4--- 3.000 H2O 4.000 Ca++ -47.0800 -47.0800 -47.0800 -47.0800 -47.0800 -47.0800 -47.0800 -47.0800 * logK= -47.080000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CaCO3xH2O type= carbonate formula= CaCO3:H2O mole vol.= 0.0000 cc mole wt.= 118.1044 g 3 species in reaction 1.000 CO3-- 1.000 H2O 1.000 Ca++ -7.0692 -7.0782 -7.1443 -7.2993 -7.5366 -7.8563 -8.2585 -8.7430 * logK= -7.140000 deltaH= -8.000000 kJ * analytic data = 21.16 -.1016 0 0 .0001831 0 0 CaCrO4 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 156.0736 g 2 species in reaction 1.000 CrO4-- 1.000 Ca++ -1.8337 -2.0591 -2.2657 -2.4918 -2.6972 -2.8847 -3.0565 -3.2145 * logK= -2.265700 deltaH= -26.945000 kJ CaHPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 136.0593 g 3 species in reaction 1.000 H+ 1.000 PO4--- 1.000 Ca++ -19.7721 -19.5127 -19.2750 -19.0149 -18.7785 -18.5628 -18.3652 -18.1835 * logK= -19.275000 deltaH= 31.000000 kJ CaHPO4:2H2O type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 172.0897 g 4 species in reaction 1.000 H+ 1.000 PO4--- 2.000 H2O 1.000 Ca++ -19.3638 -19.1713 -18.9950 -18.8020 -18.6266 -18.4666 -18.3200 -18.1851 * logK= -18.995000 deltaH= 23.000000 kJ Calcite type= carbonate formula= CaCO3 mole vol.= 0.0000 cc mole wt.= 100.0892 g 2 species in reaction 1.000 CO3-- 1.000 Ca++ -8.3814 -8.4199 -8.4798 -8.5797 -8.7092 -8.8675 -9.0537 -9.2665 * logK= -8.480000 deltaH= -8.000000 kJ * analytic data = 171.9065 .077993 -2839.319 -71.595 0 0 0 Calomel type= chloride formula= Hg2Cl2 mole vol.= 0.0000 cc mole wt.= 472.0860 g 2 species in reaction 1.000 Hg2++ 2.000 Cl- -19.3851 -18.6153 -17.9100 -17.1380 -16.4365 -15.7964 -15.2099 -14.6706 * logK= -17.910000 deltaH= 92.000000 kJ CaMoO4 type= molybdate formula= mole vol.= 0.0000 cc mole wt.= 200.0176 g 2 species in reaction 1.000 MoO4-- 1.000 Ca++ -7.9179 -7.9347 -7.9500 -7.9668 -7.9820 -7.9959 -8.0087 -8.0204 * logK= -7.950000 deltaH= -2.000000 kJ Carnotite type= vanadate formula= K(UO2)(VO4) mole vol.= 0.0000 cc mole wt.= 424.0689 g 4 species in reaction -1.000 H+ 1.000 UO2++ 1.000 K+ 1.000 HVO4-- -15.3380 -15.1199 -14.9200 -14.7012 -14.5025 -14.3211 -14.1549 -14.0020 * logK= -14.920000 deltaH= 26.070000 kJ CaS type= sulfide formula= mole vol.= 0.0000 cc mole wt.= 72.1440 g 3 species in reaction -1.000 H+ 1.000 HS- 1.000 Ca++ 11.1800 11.1800 11.1800 11.1800 11.1800 11.1800 11.1800 11.1800 * logK= 11.180000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CaSeO3:2H2O type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 203.0686 g 4 species in reaction -1.000 H+ 1.000 HSeO3- 2.000 H2O 1.000 Ca++ 3.1259 2.9631 2.8139 2.6506 2.5023 2.3669 2.2429 2.1288 * logK= 2.813900 deltaH= -19.455600 kJ CaSeO4:2H2O type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 219.0680 g 3 species in reaction 1.000 SeO4-- 2.000 H2O 1.000 Ca++ -2.8869 -2.9564 -3.0200 -3.0896 -3.1529 -3.2107 -3.2636 -3.3123 * logK= -3.020000 deltaH= -8.300000 kJ CaSO3:0.5H2O type= sulfite formula= mole vol.= 0.0000 cc mole wt.= 129.1498 g 3 species in reaction .500 H2O 1.000 Ca++ 1.000 SO3-- -6.6400 -6.6400 -6.6400 -6.6400 -6.6400 -6.6400 -6.6400 -6.6400 * logK= -6.640000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cd metal (alpha) type= elemental formula= Cd mole vol.= 0.0000 cc mole wt.= 112.3994 g 4 species in reaction -2.000 H+ -.500 O2(aq) 1.000 Cd++ 1.000 H2O 62.2868 59.2954 56.5547 53.5547 50.8290 48.3416 46.0625 43.9667 * logK= 56.554700 deltaH= -357.499386 kJ Cd metal (gamma) type= elemental formula= Cd mole vol.= 0.0000 cc mole wt.= 112.3994 g 4 species in reaction -2.000 H+ -.500 O2(aq) 1.000 Cd++ 1.000 H2O 62.3996 59.4032 56.6580 53.6531 50.9229 48.4314 46.1485 44.0492 * logK= 56.658000 deltaH= -358.089386 kJ Cd(BO2)2 type= borate formula= mole vol.= 0.0000 cc mole wt.= 198.0170 g 4 species in reaction 2.000 H3BO3 -2.000 H+ 1.000 Cd++ -2.000 H2O 9.8400 9.8400 9.8400 9.8400 9.8400 9.8400 9.8400 9.8400 * logK= 9.840000 deltaH= 0.000000 kJ Cd(OH)2 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 146.4140 g 3 species in reaction -2.000 H+ 1.000 Cd++ 2.000 H2O 15.1611 14.3694 13.6440 12.8500 12.1286 11.4702 10.8670 10.3123 * logK= 13.644000 deltaH= -94.620000 kJ Cd2Fe(CN)6 type= cyanide formula= mole vol.= 0.0000 cc mole wt.= 436.7520 g 3 species in reaction 1.000 Fe++ 2.000 Cd++ 6.000 CN- -52.7800 -52.7800 -52.7800 -52.7800 -52.7800 -52.7800 -52.7800 -52.7800 * logK= -52.780000 deltaH= 0.000000 kJ Cd3(OH)4SO4 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 501.2890 g 4 species in reaction -4.000 H+ 3.000 Cd++ 4.000 H2O 1.000 SO4-- 22.5600 22.5600 22.5600 22.5600 22.5600 22.5600 22.5600 22.5600 * logK= 22.560000 deltaH= 0.000000 kJ Cd3(PO4)2 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 527.1410 g 2 species in reaction 2.000 PO4--- 3.000 Cd++ -32.6000 -32.6000 -32.6000 -32.6000 -32.6000 -32.6000 -32.6000 -32.6000 * logK= -32.600000 deltaH= 0.000000 kJ Cd3OH2(SO4)2 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 563.3360 g 4 species in reaction -2.000 H+ 3.000 Cd++ 2.000 H2O 2.000 SO4-- 6.7100 6.7100 6.7100 6.7100 6.7100 6.7100 6.7100 6.7100 * logK= 6.710000 deltaH= 0.000000 kJ Cd4(OH)6SO4 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 647.7030 g 4 species in reaction -6.000 H+ 4.000 Cd++ 6.000 H2O 1.000 SO4-- 28.4000 28.4000 28.4000 28.4000 28.4000 28.4000 28.4000 28.4000 * logK= 28.400000 deltaH= 0.000000 kJ CdBr2:4H2O type= bromide formula= mole vol.= 0.0000 cc mole wt.= 344.2682 g 3 species in reaction 2.000 Br- 1.000 Cd++ 4.000 H2O -2.9140 -2.6588 -2.4250 -2.1691 -1.9365 -1.7243 -1.5299 -1.3511 * logK= -2.425000 deltaH= 30.500100 kJ CdCl2 type= chloride formula= mole vol.= 0.0000 cc mole wt.= 183.3054 g 2 species in reaction 2.000 Cl- 1.000 Cd++ -.3609 -.5164 -.6588 -.8147 -.9564 -1.0857 -1.2041 -1.3130 * logK= -0.658800 deltaH= -18.580000 kJ CdCl2:1H2O type= chloride formula= mole vol.= 0.0000 cc mole wt.= 201.3206 g 3 species in reaction 2.000 Cl- 1.000 Cd++ 1.000 H2O -1.5734 -1.6359 -1.6932 -1.7559 -1.8128 -1.8648 -1.9124 -1.9562 * logK= -1.693200 deltaH= -7.470000 kJ CdCl2:2.5H2O type= chloride formula= mole vol.= 0.0000 cc mole wt.= 228.3434 g 3 species in reaction 2.000 Cl- 1.000 Cd++ 2.500 H2O -2.0298 -1.9688 -1.9130 -1.8519 -1.7963 -1.7456 -1.6992 -1.6565 * logK= -1.913000 deltaH= 7.284900 kJ CdF2 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 150.3962 g 2 species in reaction 1.000 Cd++ 2.000 F- -.4713 -.8581 -1.2124 -1.6003 -1.9527 -2.2742 -2.5689 -2.8399 * logK= -1.212400 deltaH= -46.220000 kJ CdI2 type= iodide formula= mole vol.= 0.0000 cc mole wt.= 366.2082 g 2 species in reaction 1.000 Cd++ 2.000 I- -3.7605 -3.6448 -3.5389 -3.4229 -3.3176 -3.2214 -3.1333 -3.0523 * logK= -3.538900 deltaH= 13.820000 kJ CdMoO4 type= molybdate formula= mole vol.= 0.0000 cc mole wt.= 272.3370 g 2 species in reaction 1.000 Cd++ 1.000 MoO4-- -14.4620 -14.2990 -14.1497 -13.9862 -13.8377 -13.7022 -13.5780 -13.4638 * logK= -14.149700 deltaH= 19.480000 kJ CdOHCl type= chloride formula= mole vol.= 0.0000 cc mole wt.= 164.8597 g 4 species in reaction 1.000 Cl- -1.000 H+ 1.000 Cd++ 1.000 H2O 4.0332 3.7744 3.5373 3.2777 3.0419 2.8267 2.6295 2.4482 * logK= 3.537300 deltaH= -30.930000 kJ CdSb type= antimonide formula= mole vol.= 0.0000 cc mole wt.= 234.1494 g 5 species in reaction -2.000 H+ -1.250 O2(aq) 1.000 Sb(OH)3 1.000 Cd++ -.500 H2O 118.2021 112.4864 107.2499 101.5179 96.3100 91.5574 87.2029 83.1984 * logK= 107.249900 deltaH= -683.063465 kJ CdSe type= selenide formula= mole vol.= 0.0000 cc mole wt.= 191.3594 g 3 species in reaction 1.000 HSe- -1.000 H+ 1.000 Cd++ -21.4183 -20.7825 -20.2000 -19.5624 -18.9831 -18.4544 -17.9700 -17.5246 * logK= -20.200000 deltaH= 75.981400 kJ CdSeO4:2H2O type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 291.3874 g 3 species in reaction 1.000 Cd++ 1.000 SeO4-- 2.000 H2O -1.8500 -1.8500 -1.8500 -1.8500 -1.8500 -1.8500 -1.8500 -1.8500 * logK= -1.850000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CdSO4 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 208.4610 g 2 species in reaction 1.000 Cd++ 1.000 SO4-- .6612 .2263 -.1722 -.6084 -1.0047 -1.3664 -1.6977 -2.0025 * logK= -0.172200 deltaH= -51.980000 kJ CdSO4:1H2O type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 226.4762 g 3 species in reaction 1.000 Cd++ 1.000 H2O 1.000 SO4-- -1.2204 -1.4843 -1.7261 -1.9908 -2.2312 -2.4507 -2.6518 -2.8367 * logK= -1.726100 deltaH= -31.539900 kJ CdSO4:2.67H2O type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 256.5616 g 3 species in reaction 1.000 Cd++ 2.670 H2O 1.000 SO4-- -1.5845 -1.7351 -1.8730 -2.0240 -2.1611 -2.2863 -2.4010 -2.5065 * logK= -1.873000 deltaH= -17.991200 kJ Ce(OH)3 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 191.1379 g 3 species in reaction -3.000 H+ 3.000 H2O 1.000 Ce+++ 19.8900 19.8900 19.8900 19.8900 19.8900 19.8900 19.8900 19.8900 * logK= 19.890000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CeF3 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 197.1112 g 2 species in reaction 3.000 F- 1.000 Ce+++ -19.1000 -19.1000 -19.1000 -19.1000 -19.1000 -19.1000 -19.1000 -19.1000 * logK= -19.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Celestite type= sulfate formula= SrSO4 mole vol.= 0.0000 cc mole wt.= 183.6816 g 2 species in reaction 1.000 Sr++ 1.000 SO4-- -6.6521 -6.6353 -6.6200 -6.6032 -6.5880 -6.5741 -6.5613 -6.5496 * logK= -6.620000 deltaH= 2.000000 kJ CePO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 235.0874 g 2 species in reaction 1.000 PO4--- 1.000 Ce+++ -26.3000 -26.3000 -26.3000 -26.3000 -26.3000 -26.3000 -26.3000 -26.3000 * logK= -26.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Cerargyrite type= chloride formula= AgCl mole vol.= 0.0000 cc mole wt.= 143.3210 g 2 species in reaction 1.000 Cl- 1.000 Ag+ -10.7954 -10.2498 -9.7500 -9.2029 -8.7058 -8.2521 -7.8365 -7.4542 * logK= -9.750000 deltaH= 65.200000 kJ Cerrusite type= carbonate formula= PbCO3 mole vol.= 0.0000 cc mole wt.= 267.1991 g 2 species in reaction 1.000 Pb++ 1.000 CO3-- -13.5975 -13.3900 -13.2000 -12.9920 -12.8030 -12.6305 -12.4724 -12.3271 * logK= -13.200000 deltaH= 24.790000 kJ Chalcanthite type= sulfate formula= CuSO4:5H2O mole vol.= 0.0000 cc mole wt.= 249.6836 g 3 species in reaction 1.000 Cu++ 5.000 H2O 1.000 SO4-- -2.7366 -2.6862 -2.6400 -2.5894 -2.5435 -2.5016 -2.4632 -2.4279 * logK= -2.640000 deltaH= 6.025000 kJ Chalcedony type= oxide and hydroxide formula= SiO2 mole vol.= 0.0000 cc mole wt.= 60.0843 g 2 species in reaction 1.000 H4SiO4 -2.000 H2O -3.8659 -3.7010 -3.5500 -3.3847 -3.2345 -3.0974 -2.9718 -2.8563 * logK= -3.550000 deltaH= 19.700000 kJ Chalcocite type= sulfide formula= Cu2S mole vol.= 0.0000 cc mole wt.= 159.1560 g 3 species in reaction -1.000 H+ 2.000 Cu+ 1.000 HS- -37.6137 -36.2079 -34.9200 -33.5102 -32.2293 -31.0604 -29.9894 -29.0045 * logK= -34.920000 deltaH= 168.000000 kJ Chalcopyrite type= sulfide formula= CuFeS2 mole vol.= 0.0000 cc mole wt.= 183.5210 g 4 species in reaction 1.000 Cu++ -2.000 H+ 1.000 Fe++ 2.000 HS- -37.6502 -36.4080 -35.2700 -34.0243 -32.8925 -31.8596 -30.9132 -30.0430 * logK= -35.270000 deltaH= 148.448300 kJ Chrysotile type= sheet silicate formula= Mg3(Si2O5)(OH)4 mole vol.= 0.0000 cc mole wt.= 277.1332 g 4 species in reaction -6.000 H+ 2.000 H4SiO4 1.000 H2O 3.000 Mg++ 35.3427 33.7026 32.2000 30.5553 29.0609 27.6971 26.4477 25.2986 * logK= 32.200000 deltaH= -196.000000 kJ Cinnabar type= sulfide formula= HgS mole vol.= 0.0000 cc mole wt.= 232.6540 g 4 species in reaction 1.000 H+ 1.000 HS- 1.000 Hg(OH)2 -2.000 H2O -49.3488 -47.2254 -45.2800 -43.1506 -41.2158 -39.4502 -37.8325 -36.3448 * logK= -45.280000 deltaH= 253.760000 kJ Claudetite type= multiple oxide formula= As2O3 mole vol.= 0.0000 cc mole wt.= 197.8414 g 2 species in reaction 2.000 H3AsO3 -3.000 H2O -1.7961 -1.5580 -1.3400 -1.1013 -.8845 -.6866 -.5052 -.3385 * Weight read from thermo.mdb (395.6826) does not match weight computed from * components (197.8414) -- using weight computed from components. * logK= -1.340000 deltaH= 28.443000 kJ Clausthalite type= selenide formula= PbSe mole vol.= 0.0000 cc mole wt.= 286.1499 g 3 species in reaction 1.000 HSe- -1.000 H+ 1.000 Pb++ -29.0196 -28.0178 -27.1000 -26.0954 -25.1826 -24.3496 -23.5864 -22.8845 * logK= -27.100000 deltaH= 119.720000 kJ Co(BO2)2 type= borate formula= mole vol.= 0.0000 cc mole wt.= 144.5508 g 4 species in reaction 1.000 Co++ 2.000 H3BO3 -2.000 H+ -2.000 H2O 27.0703 27.0703 27.0703 27.0703 27.0703 27.0703 27.0703 27.0703 * logK= 27.070300 deltaH= 0.000000 kJ Co(OH)2 (am) type= oxide and hydroxide formula= Co(OH)2 mole vol.= 0.0000 cc mole wt.= 92.9478 g 3 species in reaction 1.000 Co++ -2.000 H+ 2.000 H2O 13.0940 13.0940 13.0940 13.0940 13.0940 13.0940 13.0940 13.0940 * logK= 13.094000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co(OH)2 (c) type= oxide and hydroxide formula= Co(OH)2 mole vol.= 0.0000 cc mole wt.= 92.9478 g 3 species in reaction 1.000 Co++ -2.000 H+ 2.000 H2O 12.2900 12.2900 12.2900 12.2900 12.2900 12.2900 12.2900 12.2900 * logK= 12.290000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Co(OH)3 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 109.9551 g 3 species in reaction 1.000 Co+++ -3.000 H+ 3.000 H2O -.8270 -1.6004 -2.3090 -3.0846 -3.7894 -4.4325 -5.0217 -5.5636 * logK= -2.309000 deltaH= -92.430000 kJ Co3(AsO4)2 type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 454.6380 g 2 species in reaction 3.000 Co++ 2.000 AsO4--- -28.2000 -28.2000 -28.2000 -28.2000 -28.2000 -28.2000 -28.2000 -28.2000 * logK= -28.200000 deltaH= 0.000000 kJ Co3(PO4)2 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 366.7424 g 2 species in reaction 3.000 Co++ 2.000 PO4--- -34.6877 -34.6877 -34.6877 -34.6877 -34.6877 -34.6877 -34.6877 -34.6877 * logK= -34.687700 deltaH= 0.000000 kJ Co3O4 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 240.7972 g 4 species in reaction 1.000 Co++ 2.000 Co+++ -8.000 H+ 4.000 H2O -8.7719 -9.6715 -10.4956 -11.3977 -12.2173 -12.9653 -13.6506 -14.2808 * logK= -10.495600 deltaH= -107.499900 kJ Coccinite type= iodide formula= HgI2 mole vol.= 0.0000 cc mole wt.= 454.3988 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 2.000 I- -38.2984 -36.5353 -34.9200 -33.1519 -31.5454 -30.0794 -28.7362 -27.5010 * logK= -34.920000 deltaH= 210.700000 kJ CoCl2 type= chloride formula= mole vol.= 0.0000 cc mole wt.= 129.8392 g 2 species in reaction 1.000 Co++ 2.000 Cl- 9.5470 8.8791 8.2672 7.5974 6.9889 6.4336 5.9247 5.4568 * logK= 8.267200 deltaH= -79.815000 kJ CoCl2:6H2O type= chloride formula= mole vol.= 0.0000 cc mole wt.= 237.9304 g 3 species in reaction 1.000 Co++ 2.000 Cl- 6.000 H2O 2.4073 2.4747 2.5365 2.6041 2.6656 2.7217 2.7730 2.8203 * logK= 2.536500 deltaH= 8.059800 kJ CoCO3 type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 118.9424 g 2 species in reaction 1.000 Co++ 1.000 CO3-- -10.9954 -11.1022 -11.2000 -11.3071 -11.4044 -11.4932 -11.5745 -11.6493 * logK= -11.200000 deltaH= -12.761200 kJ CoF2 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 96.9300 g 2 species in reaction 1.000 Co++ 2.000 F- -.6771 -1.1571 -1.5969 -2.0783 -2.5157 -2.9149 -3.2806 -3.6169 * logK= -1.596900 deltaH= -57.368000 kJ CoF3 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 115.9284 g 2 species in reaction 1.000 Co+++ 3.000 F- .5252 -.5099 -1.4581 -2.4961 -3.4391 -4.2998 -5.0883 -5.8134 * logK= -1.458100 deltaH= -123.692100 kJ CoFe2O4 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 234.6248 g 4 species in reaction 2.000 Fe+++ 1.000 Co++ -8.000 H+ 4.000 H2O -.9816 -2.3106 -3.5281 -4.8608 -6.0717 -7.1768 -8.1893 -9.1203 * logK= -3.528100 deltaH= -158.819900 kJ CoHPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 154.9125 g 3 species in reaction 1.000 Co++ 1.000 H+ 1.000 PO4--- -19.0607 -19.0607 -19.0607 -19.0607 -19.0607 -19.0607 -19.0607 -19.0607 * logK= -19.060700 deltaH= 0.000000 kJ CoMoO4 type= molybdate formula= mole vol.= 0.0000 cc mole wt.= 218.8708 g 2 species in reaction 1.000 Co++ 1.000 MoO4-- -7.3857 -7.5815 -7.7609 -7.9573 -8.1357 -8.2985 -8.4477 -8.5848 * logK= -7.760900 deltaH= -23.399900 kJ CoO type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 74.9326 g 3 species in reaction 1.000 Co++ -2.000 H+ 1.000 H2O 15.2907 14.4013 13.5864 12.6944 11.8840 11.1444 10.4668 9.8436 * logK= 13.586400 deltaH= -106.295000 kJ CoS (alpha) type= sulfide formula= CoS mole vol.= 0.0000 cc mole wt.= 90.9972 g 3 species in reaction 1.000 Co++ -1.000 H+ 1.000 HS- -7.4200 -7.4200 -7.4200 -7.4200 -7.4200 -7.4200 -7.4200 -7.4200 * logK= -7.420000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CoS (beta) type= sulfide formula= CoS mole vol.= 0.0000 cc mole wt.= 90.9972 g 3 species in reaction 1.000 Co++ -1.000 H+ 1.000 HS- -11.7200 -11.7200 -11.7200 -11.7200 -11.7200 -11.7200 -11.7200 -11.7200 * logK= -11.720000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CoSe type= selenide formula= mole vol.= 0.0000 cc mole wt.= 137.8932 g 3 species in reaction 1.000 Co++ 1.000 HSe- -1.000 H+ -16.2000 -16.2000 -16.2000 -16.2000 -16.2000 -16.2000 -16.2000 -16.2000 * logK= -16.200000 deltaH= 0.000000 kJ CoSeO3 type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 185.8914 g 3 species in reaction 1.000 Co++ -1.000 H+ 1.000 HSeO3- 1.3200 1.3200 1.3200 1.3200 1.3200 1.3200 1.3200 1.3200 * logK= 1.320000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CoSeO4:6H2O type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 309.9820 g 3 species in reaction 1.000 Co++ 1.000 SeO4-- 6.000 H2O -1.5300 -1.5300 -1.5300 -1.5300 -1.5300 -1.5300 -1.5300 -1.5300 * logK= -1.530000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CoSO4 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 154.9948 g 2 species in reaction 1.000 Co++ 1.000 SO4-- 4.0735 3.4102 2.8024 2.1371 1.5327 .9811 .4757 .0110 * logK= 2.802400 deltaH= -79.277000 kJ CoSO4:6H2O type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 263.0860 g 3 species in reaction 1.000 Co++ 6.000 H2O 1.000 SO4-- -2.4899 -2.4809 -2.4726 -2.4635 -2.4553 -2.4478 -2.4409 -2.4346 * logK= -2.472600 deltaH= 1.080100 kJ Cotunnite type= chloride formula= PbCl2 mole vol.= 0.0000 cc mole wt.= 278.0959 g 2 species in reaction 2.000 Cl- 1.000 Pb++ -5.1995 -4.9806 -4.7800 -4.5604 -4.3609 -4.1789 -4.0121 -3.8587 * logK= -4.780000 deltaH= 26.166000 kJ Covellite type= sulfide formula= CuS mole vol.= 0.0000 cc mole wt.= 95.6100 g 3 species in reaction 1.000 Cu++ -1.000 H+ 1.000 HS- -23.7753 -22.9636 -22.2200 -21.4060 -20.6665 -19.9915 -19.3732 -18.8045 * logK= -22.220000 deltaH= 97.000000 kJ Cr metal type= elemental formula= Cr mole vol.= 0.0000 cc mole wt.= 51.9960 g 4 species in reaction -2.000 H+ 1.000 Cr++ -.500 O2(aq) 1.000 H2O 80.8052 77.0048 73.5231 69.7119 66.2492 63.0891 60.1938 57.5313 * logK= 73.523100 deltaH= -454.169386 kJ Cr(OH)2 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 86.0106 g 3 species in reaction 1.000 Cr++ -2.000 H+ 2.000 H2O 11.3898 11.0919 10.8189 10.5201 10.2486 10.0009 9.7739 9.5652 * logK= 10.818900 deltaH= -35.605800 kJ Cr(OH)3 (am) type= oxide and hydroxide formula= Cr(OH)3 mole vol.= 0.0000 cc mole wt.= 103.0179 g 3 species in reaction -1.000 H+ 1.000 H2O 1.000 Cr(OH)2+ 1.2818 .3571 -.4900 -1.4173 -2.2598 -3.0286 -3.7330 -4.3808 * logK= -0.490000 deltaH= -110.500000 kJ Cr(VI)-Ettringite type= multiple oxide formula= Ca6Al2(CrO4)3(OH)12:26H2O mole vol.= 0.0000 cc mole wt.= 1314.9066 g 5 species in reaction 3.000 CrO4-- -12.000 H+ 2.000 Al+++ 38.000 H2O 6.000 Ca++ 68.4946 64.2128 60.2900 55.9960 52.0947 48.5343 45.2723 42.2724 * logK= 60.290000 deltaH= -511.700000 kJ Cr(VI)-Jarosite type= multiple oxide formula= KFe3(CrO4)2(OH)6 mole vol.= 0.0000 cc mole wt.= 540.6740 g 5 species in reaction 3.000 Fe+++ 2.000 CrO4-- -6.000 H+ 6.000 H2O 1.000 K+ -18.7062 -18.5464 -18.4000 -18.2397 -18.0941 -17.9612 -17.8394 -17.7275 * logK= -18.400000 deltaH= 19.100000 kJ Cr2O3 (c) type= multiple oxide formula= Cr2O3 mole vol.= 0.0000 cc mole wt.= 151.9902 g 3 species in reaction -2.000 H+ -1.000 H2O 2.000 Cr(OH)2+ 1.9253 .2316 -1.3200 -3.0184 -4.5616 -5.9699 -7.2602 -8.4467 * logK= -1.320000 deltaH= -202.400000 kJ CrBr3 type= bromide formula= mole vol.= 0.0000 cc mole wt.= 291.7080 g 4 species in reaction 3.000 Br- 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ 22.1746 20.9920 19.9086 18.7227 17.6452 16.6619 15.7610 14.9324 * logK= 19.908600 deltaH= -141.323000 kJ CrCl2 type= chloride formula= mole vol.= 0.0000 cc mole wt.= 122.9020 g 2 species in reaction 2.000 Cl- 1.000 Cr++ 15.8676 14.9408 14.0917 13.1623 12.3178 11.5471 10.8410 10.1917 * logK= 14.091700 deltaH= -110.760000 kJ CrCl3 type= chloride formula= mole vol.= 0.0000 cc mole wt.= 158.3550 g 4 species in reaction 3.000 Cl- 2.000 H+ -2.000 H2O 1.000 Cr(OH)2+ 17.0559 16.0427 15.1145 14.0985 13.1753 12.3328 11.5610 10.8511 * logK= 15.114500 deltaH= -121.080000 kJ CrF3 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 108.9912 g 4 species in reaction 2.000 H+ 3.000 F- -2.000 H2O 1.000 Cr(OH)2+ -10.9617 -11.1574 -11.3367 -11.5330 -11.7113 -11.8741 -12.0232 -12.1603 * logK= -11.336700 deltaH= -23.390100 kJ CrI3 type= iodide formula= mole vol.= 0.0000 cc mole wt.= 432.7092 g 4 species in reaction 2.000 H+ 3.000 I- -2.000 H2O 1.000 Cr(OH)2+ 22.6320 21.5072 20.4767 19.3487 18.3239 17.3886 16.5317 15.7436 * logK= 20.476700 deltaH= -134.419400 kJ Cristobalite type= oxide and hydroxide formula= SiO2 mole vol.= 0.0000 cc mole wt.= 60.0843 g 2 species in reaction 1.000 H4SiO4 -2.000 H2O -3.6708 -3.5034 -3.3500 -3.1821 -3.0296 -2.8904 -2.7628 -2.6456 * logK= -3.350000 deltaH= 20.006000 kJ CrO3 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 99.9942 g 3 species in reaction 1.000 CrO4-- 2.000 H+ -1.000 H2O -3.1270 -3.1706 -3.2105 -3.2542 -3.2939 -3.3302 -3.3634 -3.3939 * logK= -3.210500 deltaH= -5.209100 kJ Cu metal type= elemental formula= Cu mole vol.= 0.0000 cc mole wt.= 63.5460 g 4 species in reaction -1.000 H+ -.250 O2(aq) 1.000 Cu+ .500 H2O 13.8770 13.2961 12.7640 12.1815 11.6523 11.1693 10.7268 10.3198 * logK= 12.764000 deltaH= -69.414693 kJ Cu(OH)2 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 97.5606 g 3 species in reaction 1.000 Cu++ -2.000 H+ 2.000 H2O 10.1417 9.6972 9.2900 8.8442 8.4392 8.0696 7.7310 7.4196 * logK= 9.290000 deltaH= -53.120000 kJ Cu(SbO3)2 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 403.0424 g 5 species in reaction 1.000 Cu++ -2.000 H+ 1.000 O2(aq) 2.000 Sb(OH)3 -2.000 H2O -49.9181 -45.1958 -40.8695 -36.1338 -31.8311 -27.9045 -24.3069 -20.9985 * logK= -40.869500 deltaH= 564.338772 kJ Cu2(OH)3Br type= bromide formula= mole vol.= 0.0000 cc mole wt.= 258.0179 g 4 species in reaction 2.000 Cu++ 1.000 Br- -3.000 H+ 3.000 H2O 9.4066 8.6248 7.9085 7.1245 6.4121 5.7621 5.1664 4.6187 * logK= 7.908500 deltaH= -93.430000 kJ Cu2(OH)3NO3 type= nitrate formula= mole vol.= 0.0000 cc mole wt.= 240.1188 g 4 species in reaction 2.000 Cu++ -3.000 H+ 1.000 NO3- 3.000 H2O 10.4149 9.8075 9.2510 8.6418 8.0884 7.5833 7.1205 6.6949 * logK= 9.251000 deltaH= -72.592400 kJ Cu2Sb:3H2O type= antimonide formula= mole vol.= 0.0000 cc mole wt.= 302.8876 g 6 species in reaction 1.000 Cu++ -3.000 H+ -1.500 O2(aq) 1.000 Sb(OH)3 1.000 Cu+ 3.000 H2O 104.0705 98.9387 94.2373 89.0910 84.4152 80.1482 76.2386 72.6433 * logK= 94.237300 deltaH= -613.271058 kJ Cu2Se (alpha) type= selenide formula= Cu2Se mole vol.= 0.0000 cc mole wt.= 206.0520 g 3 species in reaction 1.000 HSe- -1.000 H+ 2.000 Cu+ -49.2355 -47.4426 -45.8000 -44.0020 -42.3684 -40.8776 -39.5117 -38.2556 * logK= -45.800000 deltaH= 214.262600 kJ Cu2SO4 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 223.1536 g 2 species in reaction 2.000 Cu+ 1.000 SO4-- -1.6441 -1.8037 -1.9500 -2.1101 -2.2556 -2.3883 -2.5099 -2.6218 * logK= -1.950000 deltaH= -19.079000 kJ Cu3(AsO4)2:2H2O type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 504.5068 g 3 species in reaction 3.000 Cu++ 2.000 AsO4--- 2.000 H2O -35.1000 -35.1000 -35.1000 -35.1000 -35.1000 -35.1000 -35.1000 -35.1000 * logK= -35.100000 deltaH= 0.000000 kJ Cu3(PO4)2 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 380.5808 g 2 species in reaction 3.000 Cu++ 2.000 PO4--- -36.8500 -36.8500 -36.8500 -36.8500 -36.8500 -36.8500 -36.8500 -36.8500 * logK= -36.850000 deltaH= 0.000000 kJ Cu3(PO4)2:3H2O type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 434.6264 g 3 species in reaction 3.000 Cu++ 2.000 PO4--- 3.000 H2O -35.1200 -35.1200 -35.1200 -35.1200 -35.1200 -35.1200 -35.1200 -35.1200 * logK= -35.120000 deltaH= 0.000000 kJ Cu3Sb type= antimonide formula= mole vol.= 0.0000 cc mole wt.= 312.3880 g 4 species in reaction -3.000 H+ -1.500 O2(aq) 1.000 Sb(OH)3 3.000 Cu+ 95.1586 90.6536 86.5263 82.0085 77.9037 74.1578 70.7256 67.5694 * logK= 86.526300 deltaH= -538.377458 kJ Cu3Se2 type= selenide formula= mole vol.= 0.0000 cc mole wt.= 348.5580 g 4 species in reaction 1.000 Cu++ 2.000 HSe- -2.000 H+ 2.000 Cu+ -68.9479 -66.1001 -63.4911 -60.6352 -58.0405 -55.6725 -53.5030 -51.5078 * logK= -63.491100 deltaH= 340.326500 kJ CuBr type= bromide formula= mole vol.= 0.0000 cc mole wt.= 143.4500 g 2 species in reaction 1.000 Br- 1.000 Cu+ -9.1796 -8.7206 -8.3000 -7.8396 -7.4214 -7.0397 -6.6899 -6.3683 * logK= -8.300000 deltaH= 54.860000 kJ CuCN type= cyanide formula= mole vol.= 0.0000 cc mole wt.= 89.5637 g 2 species in reaction 1.000 Cu+ 1.000 CN- -19.1954 -19.3543 -19.5000 -19.6594 -19.8043 -19.9365 -20.0576 -20.1690 * logK= -19.500000 deltaH= -19.000000 kJ CuCO3 type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 123.5552 g 2 species in reaction 1.000 Cu++ 1.000 CO3-- -11.5000 -11.5000 -11.5000 -11.5000 -11.5000 -11.5000 -11.5000 -11.5000 * logK= -11.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuCrO4 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 179.5396 g 2 species in reaction 1.000 Cu++ 1.000 CrO4-- -5.4400 -5.4400 -5.4400 -5.4400 -5.4400 -5.4400 -5.4400 -5.4400 * logK= -5.440000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuF type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 82.5444 g 2 species in reaction 1.000 Cu+ 1.000 F- -5.1725 -5.0332 -4.9056 -4.7659 -4.6390 -4.5231 -4.4170 -4.3194 * logK= -4.905600 deltaH= 16.648000 kJ CuF2 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 101.5428 g 2 species in reaction 1.000 Cu++ 2.000 F- 2.1877 1.6279 1.1150 .5536 .0435 -.4220 -.8485 -1.2407 * logK= 1.115000 deltaH= -66.901000 kJ CuF2:2H2O type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 137.5732 g 3 species in reaction 1.000 Cu++ 2.000 F- 2.000 H2O -4.3051 -4.4329 -4.5500 -4.6782 -4.7946 -4.9008 -4.9982 -5.0877 * logK= -4.550000 deltaH= -15.271600 kJ CuI type= iodide formula= mole vol.= 0.0000 cc mole wt.= 190.4504 g 2 species in reaction 1.000 Cu+ 1.000 I- -13.3259 -12.6339 -12.0000 -11.3061 -10.6756 -10.1003 -9.5732 -9.0884 * logK= -12.000000 deltaH= 82.690000 kJ CuMoO4 type= molybdate formula= mole vol.= 0.0000 cc mole wt.= 223.4836 g 2 species in reaction 1.000 Cu++ 1.000 MoO4-- -13.2718 -13.1697 -13.0762 -12.9738 -12.8808 -12.7959 -12.7181 -12.6466 * logK= -13.076200 deltaH= 12.200000 kJ CuOCuSO4 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 239.1530 g 4 species in reaction 2.000 Cu++ -2.000 H+ 1.000 H2O 1.000 SO4-- 12.5123 11.3594 10.3032 9.1470 8.0966 7.1379 6.2596 5.4519 * logK= 10.303200 deltaH= -137.777000 kJ Cupric Ferrite type= multiple oxide formula= CuFe2O4 mole vol.= 0.0000 cc mole wt.= 239.2376 g 4 species in reaction 1.000 Cu++ 2.000 Fe+++ -8.000 H+ 4.000 H2O 9.3587 7.5997 5.9882 4.2242 2.6215 1.1589 -.1812 -1.4135 * logK= 5.988200 deltaH= -210.209900 kJ Cuprite type= oxide and hydroxide formula= Cu2O mole vol.= 0.0000 cc mole wt.= 143.0914 g 3 species in reaction -2.000 H+ 2.000 Cu+ 1.000 H2O .5825 -.4552 -1.4060 -2.4467 -3.3923 -4.2552 -5.0458 -5.7729 * logK= -1.406000 deltaH= -124.020000 kJ Cuprous Ferrite type= multiple oxide formula= CuFeO2 mole vol.= 0.0000 cc mole wt.= 151.3918 g 4 species in reaction 1.000 Fe+++ -4.000 H+ 1.000 Cu+ 2.000 H2O -8.6623 -8.7953 -8.9171 -9.0504 -9.1716 -9.2822 -9.3835 -9.4766 * logK= -8.917100 deltaH= -15.890000 kJ CuSe type= selenide formula= mole vol.= 0.0000 cc mole wt.= 142.5060 g 3 species in reaction 1.000 Cu++ 1.000 HSe- -1.000 H+ -35.0421 -34.0286 -33.1000 -32.0836 -31.1600 -30.3173 -29.5451 -28.8350 * logK= -33.100000 deltaH= 121.126800 kJ CuSe2 type= selenide formula= mole vol.= 0.0000 cc mole wt.= 221.4660 g 4 species in reaction 1.000 Cu++ 2.000 HSe- .500 O2(aq) -1.000 H2O -83.1839 -79.6464 -76.4055 -72.8580 -69.6347 -66.6933 -63.9983 -61.5199 * logK= -76.405500 deltaH= 422.751786 kJ CuSeO3:2H2O type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 226.5346 g 4 species in reaction 1.000 Cu++ -1.000 H+ 1.000 HSeO3- 2.000 H2O 1.2110 .9026 .6200 .3107 .0296 -.2268 -.4618 -.6779 * logK= 0.620000 deltaH= -36.861000 kJ CuSeO4:5H2O type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 296.5796 g 3 species in reaction 1.000 Cu++ 1.000 SeO4-- 5.000 H2O -2.4400 -2.4400 -2.4400 -2.4400 -2.4400 -2.4400 -2.4400 -2.4400 * logK= -2.440000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C CuSO4 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 159.6076 g 2 species in reaction 1.000 Cu++ 1.000 SO4-- 4.1106 3.4994 2.9395 2.3266 1.7697 1.2615 .7959 .3677 * logK= 2.939500 deltaH= -73.040000 kJ Diaspore type= oxide and hydroxide formula= AlOOH mole vol.= 0.0000 cc mole wt.= 59.9882 g 3 species in reaction -3.000 H+ 1.000 Al+++ 2.000 H2O 8.5253 7.6630 6.8730 6.0082 5.2225 4.5055 3.8486 3.2444 * logK= 6.873000 deltaH= -103.051900 kJ Djurleite type= sulfide formula= Cu1.934S mole vol.= 0.0000 cc mole wt.= 154.9620 g 4 species in reaction .066 Cu++ -1.000 H+ 1.868 Cu+ 1.000 HS- -37.1322 -35.4558 -33.9200 -32.2389 -30.7115 -29.3176 -28.0405 -26.8660 * logK= -33.920000 deltaH= 200.334100 kJ Dolomite (disordered) type= carbonate formula= CaMg(CO3)2 mole vol.= 0.0000 cc mole wt.= 184.4104 g 3 species in reaction 2.000 CO3-- 1.000 Ca++ 1.000 Mg++ -15.7960 -16.1843 -16.5400 -16.9294 -17.2831 -17.6060 -17.9018 -18.1738 * logK= -16.540000 deltaH= -46.400000 kJ Dolomite (ordered) type= carbonate formula= CaMg(CO3)2 mole vol.= 0.0000 cc mole wt.= 184.4104 g 3 species in reaction 2.000 CO3-- 1.000 Ca++ 1.000 Mg++ -16.4567 -16.7872 -17.0900 -17.4215 -17.7226 -17.9975 -18.2493 -18.4808 * logK= -17.090000 deltaH= -39.500000 kJ Dummy type= formula= mole vol.= 0.0000 cc mole wt.= 89.0000 g 1 species in reaction 1.000 dummy -99999.0000 -99999.0000 -99999.0000 -99999.0000 -99999.0000 -99999.0000 -99999.0000 -99999.0000 * logK= -99999.000000 deltaH= 0.000000 kJ * Dummy species added to facilitate the surface precipitation model Dy(OH)3 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 213.5219 g 3 species in reaction 1.000 Dy+++ -3.000 H+ 3.000 H2O 16.0900 16.0900 16.0900 16.0900 16.0900 16.0900 16.0900 16.0900 * logK= 16.090000 deltaH= 0.000000 kJ Dy2(CO3)3 type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 505.0276 g 2 species in reaction 2.000 Dy+++ 3.000 CO3-- -31.5000 -31.5000 -31.5000 -31.5000 -31.5000 -31.5000 -31.5000 -31.5000 * logK= -31.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C DyAsO4 type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 301.4192 g 2 species in reaction 1.000 Dy+++ 1.000 AsO4--- -23.8000 -23.8000 -23.8000 -23.8000 -23.8000 -23.8000 -23.8000 -23.8000 * logK= -23.800000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C DyF3 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 219.4952 g 2 species in reaction 1.000 Dy+++ 3.000 F- -17.5900 -17.5900 -17.5900 -17.5900 -17.5900 -17.5900 -17.5900 -17.5900 * logK= -17.590000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C DyPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 257.4714 g 2 species in reaction 1.000 Dy+++ 1.000 PO4--- -25.2000 -25.2000 -25.2000 -25.2000 -25.2000 -25.2000 -25.2000 -25.2000 * logK= -25.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Epsomite type= sulfate formula= MgSO4:7H2O mole vol.= 0.0000 cc mole wt.= 246.4800 g 3 species in reaction 7.000 H2O 1.000 Mg++ 1.000 SO4-- -2.3119 -2.2151 -2.1265 -2.0295 -1.9414 -1.8609 -1.7872 -1.7195 * logK= -2.126500 deltaH= 11.560100 kJ Er(OH)3 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 218.2809 g 3 species in reaction -3.000 H+ 1.000 Er+++ 3.000 H2O 15.3900 15.3900 15.3900 15.3900 15.3900 15.3900 15.3900 15.3900 * logK= 15.390000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ErAsO4 type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 306.1782 g 2 species in reaction 1.000 Er+++ 1.000 AsO4--- -22.5000 -22.5000 -22.5000 -22.5000 -22.5000 -22.5000 -22.5000 -22.5000 * logK= -22.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ErF3 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 224.2542 g 2 species in reaction 1.000 Er+++ 3.000 F- -18.0000 -18.0000 -18.0000 -18.0000 -18.0000 -18.0000 -18.0000 -18.0000 * logK= -18.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ErPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 262.2304 g 2 species in reaction 1.000 Er+++ 1.000 PO4--- -25.1000 -25.1000 -25.1000 -25.1000 -25.1000 -25.1000 -25.1000 -25.1000 * logK= -25.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ettringite type= sulfate formula= Ca6Al2(SO4)3(OH)12:26H2O mole vol.= 0.0000 cc mole wt.= 1255.1106 g 5 species in reaction -12.000 H+ 2.000 Al+++ 38.000 H2O 6.000 Ca++ 3.000 SO4-- 63.0167 59.7984 56.8500 53.6226 50.6903 48.0143 45.5625 43.3078 * logK= 56.850000 deltaH= -384.600000 kJ Eu(OH)3 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 202.9859 g 3 species in reaction -3.000 H+ 1.000 Eu+++ 3.000 H2O 15.4900 15.4900 15.4900 15.4900 15.4900 15.4900 15.4900 15.4900 * logK= 15.490000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Eu2(CO3)3 type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 483.9556 g 2 species in reaction 2.000 Eu+++ 3.000 CO3-- -32.3000 -32.3000 -32.3000 -32.3000 -32.3000 -32.3000 -32.3000 -32.3000 * logK= -32.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C EuAsO4 type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 290.8832 g 2 species in reaction 1.000 AsO4--- 1.000 Eu+++ -22.5000 -22.5000 -22.5000 -22.5000 -22.5000 -22.5000 -22.5000 -22.5000 * logK= -22.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C EuF3 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 208.9592 g 2 species in reaction 1.000 Eu+++ 3.000 F- -21.9000 -21.9000 -21.9000 -21.9000 -21.9000 -21.9000 -21.9000 -21.9000 * logK= -21.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C EuPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 246.9354 g 2 species in reaction 1.000 PO4--- 1.000 Eu+++ -25.9600 -25.9600 -25.9600 -25.9600 -25.9600 -25.9600 -25.9600 -25.9600 * logK= -25.960000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C FCO3-Apatite type= phosphate formula= Ca9.316Mg.144Na.36(PO4)4.8(F)2.48(CO3)1.2 mole vol.= 0.0000 cc mole wt.= 960.1523 g 6 species in reaction 4.800 PO4--- .360 Na+ 1.200 CO3-- 2.480 F- 9.316 Ca++ .144 Mg++ -117.0425 -115.6634 -114.4000 -113.0170 -111.7605 -110.6138 -109.5631 -108.5969 * logK= -114.400000 deltaH= 164.807800 kJ Fe(OH)2 (am) type= oxide and hydroxide formula= Fe(OH)2 mole vol.= 0.0000 cc mole wt.= 89.8616 g 3 species in reaction 1.000 Fe++ -2.000 H+ 2.000 H2O 14.9590 14.1924 13.4900 12.7212 12.0226 11.3851 10.8011 10.2640 * logK= 13.490000 deltaH= -91.620000 kJ Fe(OH)2 (c) type= oxide and hydroxide formula= Fe(OH)2 mole vol.= 0.0000 cc mole wt.= 89.8616 g 3 species in reaction 1.000 Fe++ -2.000 H+ 2.000 H2O 12.8900 12.8900 12.8900 12.8900 12.8900 12.8900 12.8900 12.8900 * logK= 12.890000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Fe(OH)2.7Cl.3 type= chloride formula= mole vol.= 0.0000 cc mole wt.= 112.4026 g 4 species in reaction 1.000 Fe+++ .300 Cl- -2.700 H+ 2.700 H2O -3.0400 -3.0400 -3.0400 -3.0400 -3.0400 -3.0400 -3.0400 -3.0400 * logK= -3.040000 deltaH= 0.000000 kJ Fe(VO3)2 type= vanadate formula= mole vol.= 0.0000 cc mole wt.= 253.7264 g 4 species in reaction 2.000 H+ 1.000 Fe++ -2.000 H2O 2.000 HVO4-- -35.0345 -34.5050 -34.0200 -33.4891 -33.0067 -32.5665 -32.1631 -31.7922 * logK= -34.020000 deltaH= 63.270000 kJ Fe2(OH)4SeO3 type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 306.6814 g 4 species in reaction 2.000 Fe+++ -5.000 H+ 1.000 HSeO3- 4.000 H2O 1.5539 1.5539 1.5539 1.5539 1.5539 1.5539 1.5539 1.5539 * logK= 1.553900 deltaH= 0.000000 kJ Fe2(SeO3)3:2H2O type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 528.5990 g 4 species in reaction 2.000 Fe+++ -3.000 H+ 3.000 HSeO3- 2.000 H2O -20.6262 -20.6262 -20.6262 -20.6262 -20.6262 -20.6262 -20.6262 -20.6262 * logK= -20.626200 deltaH= 0.000000 kJ Fe2(SO4)3 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 399.8788 g 2 species in reaction 2.000 Fe+++ 3.000 SO4-- .1464 -1.8789 -3.7343 -5.7653 -7.6106 -9.2946 -10.8375 -12.2564 * logK= -3.734300 deltaH= -242.028100 kJ Fe3(OH)8 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 303.5994 g 4 species in reaction 2.000 Fe+++ -8.000 H+ 1.000 Fe++ 8.000 H2O 20.2220 20.2220 20.2220 20.2220 20.2220 20.2220 20.2220 20.2220 * logK= 20.222000 deltaH= 0.000000 kJ FeAsO4:2H2O type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 230.7966 g 3 species in reaction 1.000 Fe+++ 1.000 AsO4--- 2.000 H2O -20.2000 -20.2000 -20.2000 -20.2000 -20.2000 -20.2000 -20.2000 -20.2000 * logK= -20.200000 deltaH= 0.000000 kJ FeCr2O4 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 223.8366 g 3 species in reaction 1.000 Fe++ -4.000 H+ 2.000 Cr(OH)2+ 9.4515 8.2766 7.2003 6.0221 4.9517 3.9748 3.0797 2.2566 * logK= 7.200300 deltaH= -140.400000 kJ FeMoO4 type= molybdate formula= mole vol.= 0.0000 cc mole wt.= 215.7846 g 2 species in reaction 1.000 Fe++ 1.000 MoO4-- -9.9130 -10.0059 -10.0910 -10.1841 -10.2688 -10.3460 -10.4168 -10.4818 * logK= -10.091000 deltaH= -11.100000 kJ Ferrihydrite type= oxide and hydroxide formula= Fe(OH)3 mole vol.= 0.0000 cc mole wt.= 106.8689 g 3 species in reaction 1.000 Fe+++ -3.000 H+ 3.000 H2O 4.8098 3.9697 3.2000 2.3575 1.5920 .8934 .2534 -.3352 * logK= 3.200000 deltaH= -100.400000 kJ Ferrihydrite (aged) type= oxide and hydroxide formula= Fe(OH)3 mole vol.= 0.0000 cc mole wt.= 106.8689 g 3 species in reaction 1.000 Fe+++ -3.000 H+ 3.000 H2O 2.6900 2.6900 2.6900 2.6900 2.6900 2.6900 2.6900 2.6900 * logK= 2.690000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ferroselite type= selenide formula= FeSe2 mole vol.= 0.0000 cc mole wt.= 213.7670 g 4 species in reaction 2.000 HSe- 1.000 Fe++ .500 O2(aq) -1.000 H2O -66.9183 -64.1615 -61.6359 -58.8713 -56.3595 -54.0672 -51.9670 -50.0356 * logK= -61.635900 deltaH= 329.448586 kJ FeS (ppt) type= sulfide formula= FeS mole vol.= 0.0000 cc mole wt.= 87.9110 g 3 species in reaction 1.000 Fe++ -1.000 H+ 1.000 HS- -2.7736 -2.8657 -2.9500 -3.0423 -3.1262 -3.2027 -3.2728 -3.3373 * logK= -2.950000 deltaH= -11.000000 kJ FeSe type= selenide formula= mole vol.= 0.0000 cc mole wt.= 134.8070 g 3 species in reaction 1.000 Fe++ 1.000 HSe- -1.000 H+ -11.0335 -11.0160 -11.0000 -10.9824 -10.9665 -10.9519 -10.9386 -10.9263 * logK= -11.000000 deltaH= 2.092000 kJ Fluorite type= fluoride formula= CaF2 mole vol.= 0.0000 cc mole wt.= 78.0768 g 2 species in reaction 2.000 F- 1.000 Ca++ -11.3071 -11.1098 -10.9489 -10.7969 -10.6828 -10.6006 -10.5455 -10.5135 * logK= -10.500000 deltaH= 12.000000 kJ * analytic data = -109.25 -.0024 3120.98 37.624 .00000049 2088.47 298.4 Ga(OH)3 (am) type= oxide and hydroxide formula= Ga(OH)3 mole vol.= 0.0000 cc mole wt.= 120.7449 g 3 species in reaction -3.000 H+ 3.000 H2O 1.000 Ga+++ 4.9900 4.9900 4.9900 4.9900 4.9900 4.9900 4.9900 4.9900 * logK= 4.990000 deltaH= 0.000000 kJ Galena type= sulfide formula= PbS mole vol.= 0.0000 cc mole wt.= 239.2539 g 3 species in reaction -1.000 H+ 1.000 Pb++ 1.000 HS- -16.2027 -15.5333 -14.9200 -14.2487 -13.6387 -13.0821 -12.5721 -12.1031 * logK= -14.920000 deltaH= 80.000000 kJ GaOOH type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 102.7297 g 3 species in reaction -3.000 H+ 2.000 H2O 1.000 Ga+++ 2.8900 2.8900 2.8900 2.8900 2.8900 2.8900 2.8900 2.8900 * logK= 2.890000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GaPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 164.6944 g 2 species in reaction 1.000 PO4--- 1.000 Ga+++ -22.8400 -22.8400 -22.8400 -22.8400 -22.8400 -22.8400 -22.8400 -22.8400 * logK= -22.840000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Gd(OH)3 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 208.2719 g 3 species in reaction 1.000 Gd+++ -3.000 H+ 3.000 H2O 15.0900 15.0900 15.0900 15.0900 15.0900 15.0900 15.0900 15.0900 * logK= 15.090000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Gd2(CO3)3 (s) type= carbonate formula= Gd2(CO3)3 mole vol.= 0.0000 cc mole wt.= 494.5276 g 2 species in reaction 2.000 Gd+++ 3.000 CO3-- -32.2000 -32.2000 -32.2000 -32.2000 -32.2000 -32.2000 -32.2000 -32.2000 * logK= -32.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GdAsO4 type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 296.1692 g 2 species in reaction 1.000 Gd+++ 1.000 AsO4--- -21.7000 -21.7000 -21.7000 -21.7000 -21.7000 -21.7000 -21.7000 -21.7000 * logK= -21.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GdF3 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 214.2452 g 2 species in reaction 1.000 Gd+++ 3.000 F- -18.0900 -18.0900 -18.0900 -18.0900 -18.0900 -18.0900 -18.0900 -18.0900 * logK= -18.090000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GdF3 x H2O (s) type= fluoride formula= GdF3:0.5H2O mole vol.= 0.0000 cc mole wt.= 223.2528 g 3 species in reaction 1.000 Gd+++ 3.000 F- .500 H2O -16.9000 -16.9000 -16.9000 -16.9000 -16.9000 -16.9000 -16.9000 -16.9000 * logK= -16.900000 deltaH= 0.000000 kJ GdPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 252.2214 g 2 species in reaction 1.000 Gd+++ 1.000 PO4--- -25.6000 -25.6000 -25.6000 -25.6000 -25.6000 -25.6000 -25.6000 -25.6000 * logK= -25.600000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C GdPO4 x H2O(s) type= phosphate formula= GdPO4:H2O mole vol.= 0.0000 cc mole wt.= 270.2366 g 3 species in reaction 1.000 Gd+++ 1.000 PO4--- 1.000 H2O -24.3000 -24.3000 -24.3000 -24.3000 -24.3000 -24.3000 -24.3000 -24.3000 * logK= -24.300000 deltaH= 0.000000 kJ Gibbsite (C) type= oxide and hydroxide formula= Al(OH)3 mole vol.= 0.0000 cc mole wt.= 78.0034 g 3 species in reaction -3.000 H+ 1.000 Al+++ 3.000 H2O 9.4236 8.5449 7.7400 6.8589 6.0583 5.3278 4.6584 4.0428 * logK= 7.740000 deltaH= -105.000000 kJ Goethite type= oxide and hydroxide formula= FeOOH mole vol.= 0.0000 cc mole wt.= 88.8537 g 3 species in reaction 1.000 Fe+++ -3.000 H+ 2.000 H2O 1.4624 .9554 .4910 -.0174 -.4793 -.9008 -1.2871 -1.6422 * logK= 0.491000 deltaH= -60.584300 kJ Goslarite type= sulfate formula= ZnSO4:7H2O mole vol.= 0.0000 cc mole wt.= 287.5379 g 3 species in reaction 1.000 Zn++ 7.000 H2O 1.000 SO4-- -2.2390 -2.1201 -2.0112 -1.8920 -1.7836 -1.6847 -1.5942 -1.5108 * logK= -2.011200 deltaH= 14.210000 kJ Greenalite type= sheet silicate formula= Fe3Si2O5(OH)4 mole vol.= 0.0000 cc mole wt.= 371.7382 g 4 species in reaction -6.000 H+ 3.000 Fe++ 2.000 H4SiO4 1.000 H2O 20.8100 20.8100 20.8100 20.8100 20.8100 20.8100 20.8100 20.8100 * logK= 20.810000 deltaH= 0.000000 kJ Greenockite type= sulfide formula= CdS mole vol.= 0.0000 cc mole wt.= 144.4634 g 3 species in reaction -1.000 H+ 1.000 Cd++ 1.000 HS- -14.9019 -14.4416 -14.0200 -13.5585 -13.1391 -12.7564 -12.4058 -12.0834 * logK= -14.020000 deltaH= 55.000000 kJ Greigite type= sulfide formula= Fe3S4 mole vol.= 0.0000 cc mole wt.= 295.7970 g 4 species in reaction 2.000 Fe+++ -4.000 H+ 1.000 Fe++ 4.000 HS- -45.0350 -45.0350 -45.0350 -45.0350 -45.0350 -45.0350 -45.0350 -45.0350 * logK= -45.035000 deltaH= 0.000000 kJ Gummite type= oxide and hydroxide formula= UO3 mole vol.= 0.0000 cc mole wt.= 286.0272 g 3 species in reaction -2.000 H+ 1.000 UO2++ 1.000 H2O 8.9710 8.2930 7.6718 6.9918 6.3740 5.8102 5.2937 4.8186 * logK= 7.671800 deltaH= -81.029900 kJ Gypsum type= sulfate formula= CaSO4:2H2O mole vol.= 0.0000 cc mole wt.= 172.1720 g 3 species in reaction 2.000 H2O 1.000 Ca++ 1.000 SO4-- -4.6260 -4.6177 -4.6100 -4.6016 -4.5940 -4.5870 -4.5807 -4.5748 * logK= -4.610000 deltaH= 1.000000 kJ H-Autunite type= phosphate formula= H2(UO2)2(PO4)2 mole vol.= 0.0000 cc mole wt.= 732.0142 g 3 species in reaction 2.000 H+ 2.000 UO2++ 2.000 PO4--- -47.6895 -47.8155 -47.9310 -48.0574 -48.1722 -48.2770 -48.3731 -48.4614 * logK= -47.931000 deltaH= -15.062400 kJ H-Jarosite type= sulfate formula= HFe3(SO4)2(OH)6:H2O mole vol.= 0.0000 cc mole wt.= 480.7311 g 4 species in reaction 3.000 Fe+++ -5.000 H+ 7.000 H2O 2.000 SO4-- -1.8104 -3.6785 -5.3900 -7.2634 -8.9656 -10.5189 -11.9421 -13.2509 * logK= -5.390000 deltaH= -223.250000 kJ H2MoO4 type= molybdate formula= mole vol.= 0.0000 cc mole wt.= 161.9534 g 2 species in reaction 2.000 H+ 1.000 MoO4-- -13.6622 -13.2521 -12.8765 -12.4653 -12.0917 -11.7508 -11.4384 -11.1512 * logK= -12.876500 deltaH= 49.000000 kJ H2Sn(OH)6 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 222.7496 g 2 species in reaction 2.000 H+ 1.000 Sn(OH)6-- -23.5281 -23.5281 -23.5281 -23.5281 -23.5281 -23.5281 -23.5281 -23.5281 * logK= -23.528100 deltaH= 0.000000 kJ H2WO4(s) type= tungstate formula= H2WO4 mole vol.= 0.0000 cc mole wt.= 249.8634 g 2 species in reaction 1.000 WO4-- 2.000 H+ -15.7207 -15.5533 -15.4000 -15.2322 -15.0797 -14.9405 -14.8130 -14.6958 * logK= -15.400000 deltaH= 20.000000 kJ Halite type= chloride formula= NaCl mole vol.= 0.0000 cc mole wt.= 58.4428 g 2 species in reaction 1.000 Cl- 1.000 Na+ 1.4907 1.5216 1.5500 1.5810 1.6093 1.6350 1.6586 1.6803 * logK= 1.550000 deltaH= 3.700000 kJ Halloysite type= sheet silicate formula= Al2Si2O5(OH)4 mole vol.= 0.0000 cc mole wt.= 258.1602 g 4 species in reaction -6.000 H+ 2.000 Al+++ 2.000 H4SiO4 1.000 H2O 12.4839 10.9658 9.5749 8.0524 6.6691 5.4068 4.2502 3.1865 * logK= 9.574900 deltaH= -181.429700 kJ Hausmannite type= multiple oxide formula= Mn3O4 mole vol.= 0.0000 cc mole wt.= 228.8116 g 4 species in reaction 3.000 Mn++ -6.000 H+ .500 O2(aq) 3.000 H2O 20.2160 19.0543 17.9900 16.8250 15.7665 14.8005 13.9155 13.1016 * logK= 17.990000 deltaH= -138.830614 kJ Hematite type= multiple oxide formula= Fe2O3 mole vol.= 0.0000 cc mole wt.= 159.6922 g 3 species in reaction 2.000 Fe+++ -6.000 H+ 3.000 H2O .6502 -.4292 -1.4180 -2.5004 -3.4838 -4.3813 -5.2036 -5.9598 * logK= -1.418000 deltaH= -128.987000 kJ Hercynite type= multiple oxide formula= FeAl2O4 mole vol.= 0.0000 cc mole wt.= 173.8076 g 4 species in reaction -8.000 H+ 1.000 Fe++ 2.000 Al+++ 4.000 H2O 27.9264 25.2996 22.8930 20.2587 17.8653 15.6811 13.6799 11.8395 * logK= 22.893000 deltaH= -313.919900 kJ HfO2 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 210.4888 g 3 species in reaction 1.000 Hf++++ -4.000 H+ 2.000 H2O 1.1900 1.1900 1.1900 1.1900 1.1900 1.1900 1.1900 1.1900 * logK= 1.190000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Hg metal (l) type= elemental formula= Hg mole vol.= 0.0000 cc mole wt.= 200.5900 g 4 species in reaction .500 Hg2++ -1.000 H+ -.250 O2(aq) .500 H2O 8.9927 8.5103 8.0683 7.5845 7.1450 6.7439 6.3764 6.0384 * logK= 8.068300 deltaH= -57.649693 kJ Hg(OH)2(s) type= oxide and hydroxide formula= Hg(OH)2 mole vol.= 0.0000 cc mole wt.= 234.6046 g 1 species in reaction 1.000 Hg(OH)2 -3.4963 -3.4963 -3.4963 -3.4963 -3.4963 -3.4963 -3.4963 -3.4963 * logK= -3.496300 deltaH= 0.000000 kJ Hg(SCN)2 type= thiocyanate formula= mole vol.= 0.0000 cc mole wt.= 316.7534 g 4 species in reaction 2.000 H+ 2.000 SCN- 1.000 Hg(OH)2 -2.000 H2O -26.3300 -26.3300 -26.3300 -26.3300 -26.3300 -26.3300 -26.3300 -26.3300 * logK= -26.330000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Hg2(CN)2 type= cyanide formula= mole vol.= 0.0000 cc mole wt.= 453.2154 g 2 species in reaction 1.000 Hg2++ 2.000 CN- -39.3000 -39.3000 -39.3000 -39.3000 -39.3000 -39.3000 -39.3000 -39.3000 * logK= -39.300000 deltaH= 0.000000 kJ Hg2(OH)2 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 435.1946 g 3 species in reaction 1.000 Hg2++ -2.000 H+ 2.000 H2O 5.2603 5.2603 5.2603 5.2603 5.2603 5.2603 5.2603 5.2603 * logK= 5.260300 deltaH= 0.000000 kJ Hg2Br2 type= bromide formula= mole vol.= 0.0000 cc mole wt.= 560.9880 g 2 species in reaction 1.000 Hg2++ 2.000 Br- -24.3825 -23.2696 -22.2500 -21.1339 -20.1199 -19.1945 -18.3466 -17.5669 * logK= -22.250000 deltaH= 133.000000 kJ Hg2CO3 type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 461.1892 g 2 species in reaction 1.000 Hg2++ 1.000 CO3-- -16.7738 -16.3961 -16.0500 -15.6712 -15.3270 -15.0130 -14.7252 -14.4606 * logK= -16.050000 deltaH= 45.140000 kJ Hg2CrO4 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 517.1736 g 2 species in reaction 1.000 Hg2++ 1.000 CrO4-- -8.7000 -8.7000 -8.7000 -8.7000 -8.7000 -8.7000 -8.7000 -8.7000 * logK= -8.700000 deltaH= 0.000000 kJ Hg2F2 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 439.1768 g 2 species in reaction 1.000 Hg2++ 2.000 F- -10.0659 -10.2206 -10.3623 -10.5174 -10.6584 -10.7870 -10.9048 -11.0132 * logK= -10.362300 deltaH= -18.486000 kJ Hg2HPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 497.1593 g 3 species in reaction 1.000 Hg2++ 1.000 H+ 1.000 PO4--- -24.7750 -24.7750 -24.7750 -24.7750 -24.7750 -24.7750 -24.7750 -24.7750 * logK= -24.775000 deltaH= 0.000000 kJ Hg2I2 type= iodide formula= mole vol.= 0.0000 cc mole wt.= 654.9888 g 2 species in reaction 1.000 Hg2++ 2.000 I- -30.9535 -29.5896 -28.3400 -26.9722 -25.7294 -24.5953 -23.5562 -22.6006 * logK= -28.340000 deltaH= 163.000000 kJ Hg2S type= sulfide formula= mole vol.= 0.0000 cc mole wt.= 433.2440 g 3 species in reaction 1.000 Hg2++ -1.000 H+ 1.000 HS- -12.7948 -12.2112 -11.6765 -11.0912 -10.5594 -10.0741 -9.6295 -9.2206 * logK= -11.676500 deltaH= 69.747300 kJ Hg2SeO3 type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 528.1382 g 3 species in reaction 1.000 Hg2++ -1.000 H+ 1.000 HSeO3- -4.6570 -4.6570 -4.6570 -4.6570 -4.6570 -4.6570 -4.6570 -4.6570 * logK= -4.657000 deltaH= 0.000000 kJ Hg2SO4 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 497.2416 g 2 species in reaction 1.000 Hg2++ 1.000 SO4-- -6.2166 -6.1714 -6.1300 -6.0847 -6.0435 -6.0059 -5.9715 -5.9399 * logK= -6.130000 deltaH= 5.400000 kJ Hg3O2CO3 type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 693.7780 g 4 species in reaction 2.000 H+ 3.000 Hg(OH)2 -4.000 H2O 1.000 CO3-- -29.5800 -29.5800 -29.5800 -29.5800 -29.5800 -29.5800 -29.5800 -29.5800 * logK= -29.580000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HgBr2 type= bromide formula= mole vol.= 0.0000 cc mole wt.= 360.3980 g 4 species in reaction 2.000 Br- 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -27.4940 -26.3351 -25.2734 -24.1112 -23.0553 -22.0917 -21.2088 -20.3969 * logK= -25.273400 deltaH= 138.492000 kJ HgCl2 type= chloride formula= mole vol.= 0.0000 cc mole wt.= 271.4960 g 4 species in reaction 2.000 Cl- 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O -22.9909 -22.0887 -21.2621 -20.3573 -19.5353 -18.7851 -18.0977 -17.4656 * logK= -21.262100 deltaH= 107.820000 kJ HgI2:2NH3 type= iodide formula= mole vol.= 0.0000 cc mole wt.= 488.4596 g 4 species in reaction 1.000 Hg(OH)2 2.000 I- 2.000 NH4+ -2.000 H2O -18.3487 -17.2426 -16.2293 -15.1201 -14.1123 -13.1926 -12.3500 -11.5751 * logK= -16.229300 deltaH= 132.180000 kJ HgI2:6NH3 type= iodide formula= mole vol.= 0.0000 cc mole wt.= 556.5812 g 5 species in reaction -4.000 H+ 1.000 Hg(OH)2 2.000 I- 6.000 NH4+ -2.000 H2O 35.1823 34.4262 33.7335 32.9752 32.2863 31.6576 31.0816 30.5518 * logK= 33.733500 deltaH= -90.359900 kJ HgSe type= selenide formula= mole vol.= 0.0000 cc mole wt.= 279.5500 g 4 species in reaction 1.000 H+ 1.000 HSe- 1.000 Hg(OH)2 -2.000 H2O -55.6940 -55.6940 -55.6940 -55.6940 -55.6940 -55.6940 -55.6940 -55.6940 * logK= -55.694000 deltaH= 0.000000 kJ HgSeO3 type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 327.5482 g 4 species in reaction 1.000 H+ 1.000 Hg(OH)2 -2.000 H2O 1.000 HSeO3- -12.4000 -12.4000 -12.4000 -12.4000 -12.4000 -12.4000 -12.4000 -12.4000 * logK= -12.400000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HgSO4 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 296.6516 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 -2.000 H2O 1.000 SO4-- -9.6544 -9.5315 -9.4189 -9.2957 -9.1837 -9.0815 -8.9879 -8.9018 * logK= -9.418900 deltaH= 14.685800 kJ Hinsdalite type= phosphate formula= PbAl3(SO4)(PO4)(OH)6 mole vol.= 0.0000 cc mole wt.= 581.2112 g 6 species in reaction -6.000 H+ 3.000 Al+++ 1.000 PO4--- 1.000 Pb++ 6.000 H2O 1.000 SO4-- -2.5000 -2.5000 -2.5000 -2.5000 -2.5000 -2.5000 -2.5000 -2.5000 * logK= -2.500000 deltaH= 0.000000 kJ Ho(OH)3 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 215.9519 g 3 species in reaction 1.000 Ho+++ -3.000 H+ 3.000 H2O 15.6900 15.6900 15.6900 15.6900 15.6900 15.6900 15.6900 15.6900 * logK= 15.690000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HoAsO4 type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 303.8492 g 2 species in reaction 1.000 Ho+++ 1.000 AsO4--- -22.9000 -22.9000 -22.9000 -22.9000 -22.9000 -22.9000 -22.9000 -22.9000 * logK= -22.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HoF3 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 221.9252 g 2 species in reaction 1.000 Ho+++ 3.000 F- -17.0900 -17.0900 -17.0900 -17.0900 -17.0900 -17.0900 -17.0900 -17.0900 * logK= -17.090000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C HoPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 259.9014 g 2 species in reaction 1.000 Ho+++ 1.000 PO4--- -25.1000 -25.1000 -25.1000 -25.1000 -25.1000 -25.1000 -25.1000 -25.1000 * logK= -25.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Huntite type= carbonate formula= CaMg3(CO3)4 mole vol.= 0.0000 cc mole wt.= 353.0528 g 3 species in reaction 4.000 CO3-- 3.000 Mg++ 1.000 Ca++ -28.2399 -29.1417 -29.9680 -30.8724 -31.6942 -32.4441 -33.1312 -33.7631 * logK= -29.968000 deltaH= -107.779800 kJ Hydrocerrusite type= carbonate formula= Pb3(CO3)2(OH)2 mole vol.= 0.0000 cc mole wt.= 775.6027 g 4 species in reaction -2.000 H+ 3.000 Pb++ 2.000 H2O 2.000 CO3-- -18.7600 -18.7600 -18.7600 -18.7600 -18.7600 -18.7600 -18.7600 -18.7600 * logK= -18.760000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Hydromagnesite type= carbonate formula= Mg5(CO3)4(OH)2:4H2O mole vol.= 0.0000 cc mole wt.= 467.6722 g 4 species in reaction -2.000 H+ 4.000 CO3-- 6.000 H2O 5.000 Mg++ -5.2634 -7.0914 -8.7660 -10.5991 -12.2646 -13.7845 -15.1771 -16.4578 * logK= -8.766000 deltaH= -218.446600 kJ Hydroxyapatite type= phosphate formula= Ca5(PO4)3(OH) mole vol.= 0.0000 cc mole wt.= 502.3215 g 4 species in reaction -1.000 H+ 3.000 PO4--- 1.000 H2O 5.000 Ca++ -44.3330 -44.3330 -44.3330 -44.3330 -44.3330 -44.3330 -44.3330 -44.3330 * logK= -44.333000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Hydroxylpyromorphite type= phosphate formula= Pb5(PO4)3(OH) mole vol.= 0.0000 cc mole wt.= 1337.8710 g 4 species in reaction -1.000 H+ 3.000 PO4--- 5.000 Pb++ 1.000 H2O -62.7900 -62.7900 -62.7900 -62.7900 -62.7900 -62.7900 -62.7900 -62.7900 * logK= -62.790000 deltaH= 0.000000 kJ Hydrozincite type= carbonate formula= Zn5(CO3)2(OH)6 mole vol.= 0.0000 cc mole wt.= 548.9117 g 4 species in reaction 5.000 Zn++ -6.000 H+ 2.000 CO3-- 6.000 H2O 12.4920 10.5131 8.7000 6.7154 4.9122 3.2667 1.7590 .3726 * logK= 8.700000 deltaH= -236.500000 kJ Imogolite type= oxide and hydroxide formula= Al2SiO3(OH)4 mole vol.= 0.0000 cc mole wt.= 198.0759 g 4 species in reaction -6.000 H+ 2.000 Al+++ 1.000 H4SiO4 3.000 H2O 16.1042 14.4842 13.0000 11.3754 9.8993 8.5523 7.3181 6.1831 * logK= 13.000000 deltaH= -193.600000 kJ In(OH)3 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 165.8399 g 3 species in reaction -3.000 H+ 1.000 In+++ 3.000 H2O 5.0900 5.0900 5.0900 5.0900 5.0900 5.0900 5.0900 5.0900 * logK= 5.090000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C In2S3 type= sulfide formula= mole vol.= 0.0000 cc mole wt.= 325.8280 g 3 species in reaction -3.000 H+ 2.000 In+++ 3.000 HS- -37.9000 -37.9000 -37.9000 -37.9000 -37.9000 -37.9000 -37.9000 -37.9000 * logK= -37.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C InPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 209.7894 g 2 species in reaction 1.000 In+++ 1.000 PO4--- -23.4700 -23.4700 -23.4700 -23.4700 -23.4700 -23.4700 -23.4700 -23.4700 * logK= -23.470000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Iodyrite type= iodide formula= AgI mole vol.= 0.0000 cc mole wt.= 234.7724 g 2 species in reaction 1.000 I- 1.000 Ag+ -17.8437 -16.9233 -16.0800 -15.1569 -14.3182 -13.5529 -12.8516 -12.2068 * logK= -16.080000 deltaH= 110.000000 kJ K-Alum type= sulfate formula= KAl(SO4)2:12H2O mole vol.= 0.0000 cc mole wt.= 474.3891 g 4 species in reaction 1.000 Al+++ 12.000 H2O 1.000 K+ 2.000 SO4-- -5.6544 -5.4016 -5.1700 -4.9165 -4.6862 -4.4760 -4.2834 -4.1063 * logK= -5.170000 deltaH= 30.208500 kJ K-Autunite type= phosphate formula= K2(UO2)2(PO4)2 mole vol.= 0.0000 cc mole wt.= 808.2024 g 3 species in reaction 2.000 UO2++ 2.000 PO4--- 2.000 K+ -48.6371 -48.4320 -48.2440 -48.0383 -47.8513 -47.6807 -47.5244 -47.3807 * logK= -48.244000 deltaH= 24.518200 kJ K-Jarosite type= sulfate formula= KFe3(SO4)2(OH)6 mole vol.= 0.0000 cc mole wt.= 500.8100 g 5 species in reaction 3.000 Fe+++ -6.000 H+ 6.000 H2O 1.000 K+ 2.000 SO4-- -9.3677 -10.2196 -11.0000 -11.8543 -12.6304 -13.3387 -13.9877 -14.5845 * logK= -11.000000 deltaH= -101.800000 kJ K2Cr2O7 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 294.1918 g 4 species in reaction 2.000 CrO4-- 2.000 H+ -1.000 H2O 2.000 K+ -18.5371 -17.8614 -17.2424 -16.5648 -15.9491 -15.3873 -14.8725 -14.3991 * logK= -17.242400 deltaH= 80.749900 kJ K2CrO4 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 194.1976 g 2 species in reaction 1.000 CrO4-- 2.000 K+ -.8063 -.6535 -.5134 -.3601 -.2208 -.0937 .0228 .1299 * logK= -0.513400 deltaH= 18.269900 kJ K2MoO4 type= molybdate formula= mole vol.= 0.0000 cc mole wt.= 238.1416 g 2 species in reaction 1.000 MoO4-- 2.000 K+ 3.3161 3.2878 3.2619 3.2335 3.2078 3.1842 3.1627 3.1429 * logK= 3.261900 deltaH= -3.380000 kJ K2SeO4 type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 221.1616 g 2 species in reaction 1.000 SeO4-- 2.000 K+ -.7300 -.7300 -.7300 -.7300 -.7300 -.7300 -.7300 -.7300 * logK= -0.730000 deltaH= 0.000000 kJ Kaolinite type= sheet silicate formula= Al2Si2O5(OH)4 mole vol.= 0.0000 cc mole wt.= 258.1602 g 4 species in reaction -6.000 H+ 2.000 Al+++ 2.000 H4SiO4 1.000 H2O 9.8080 8.5696 7.4350 6.1931 5.0646 4.0349 3.0914 2.2237 * logK= 7.435000 deltaH= -148.000000 kJ KCl type= chloride formula= mole vol.= 0.0000 cc mole wt.= 74.5550 g 2 species in reaction 1.000 Cl- 1.000 K+ .9000 .9000 .9000 .9000 .9000 .9000 .9000 .9000 * logK= 0.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C KCN (cubic) type= cyanide formula= KCN mole vol.= 0.0000 cc mole wt.= 65.1197 g 2 species in reaction 1.000 CN- 1.000 K+ 1.2275 1.3273 1.4188 1.5189 1.6099 1.6929 1.7689 1.8389 * logK= 1.418800 deltaH= 11.930000 kJ KNpO2CO3 type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 368.1582 g 3 species in reaction 1.000 NpO2+ 1.000 CO3-- 1.000 K+ -13.6000 -13.6000 -13.6000 -13.6000 -13.6000 -13.6000 -13.6000 -13.6000 * logK= -13.600000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C La(OH)3 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 189.9279 g 3 species in reaction -3.000 H+ 1.000 La+++ 3.000 H2O 20.2910 20.2910 20.2910 20.2910 20.2910 20.2910 20.2910 20.2910 * logK= 20.291000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C La2(CO3)3 type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 457.8396 g 2 species in reaction 2.000 La+++ 3.000 CO3-- -34.4000 -34.4000 -34.4000 -34.4000 -34.4000 -34.4000 -34.4000 -34.4000 * logK= -34.400000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C La2-(Oxalate)3 type= oxalate formula= La2[(COO)2]3 mole vol.= 0.0000 cc mole wt.= 541.8708 g 2 species in reaction 2.000 La+++ 3.000 Oxalate-- -28.2200 -28.2200 -28.2200 -28.2200 -28.2200 -28.2200 -28.2200 -28.2200 * logK= -28.220000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LaAsO4 type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 277.8252 g 2 species in reaction 1.000 AsO4--- 1.000 La+++ -21.4000 -21.4000 -21.4000 -21.4000 -21.4000 -21.4000 -21.4000 -21.4000 * logK= -21.400000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LaF3 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 195.9012 g 2 species in reaction 1.000 La+++ 3.000 F- -18.7000 -18.7000 -18.7000 -18.7000 -18.7000 -18.7000 -18.7000 -18.7000 * logK= -18.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Langite type= sulfate formula= Cu4(SO4)(OH)6:H2O mole vol.= 0.0000 cc mole wt.= 470.3046 g 4 species in reaction 4.000 Cu++ -6.000 H+ 7.000 H2O 1.000 SO4-- 20.1430 18.7577 17.4886 16.0994 14.8372 13.6853 12.6299 11.6594 * logK= 17.488600 deltaH= -165.550000 kJ LaPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 233.8774 g 2 species in reaction 1.000 PO4--- 1.000 La+++ -25.7500 -25.7500 -25.7500 -25.7500 -25.7500 -25.7500 -25.7500 -25.7500 * logK= -25.750000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Larnakite type= sulfate formula= Pb2OSO4 mole vol.= 0.0000 cc mole wt.= 526.4408 g 4 species in reaction -2.000 H+ 2.000 Pb++ 1.000 H2O 1.000 SO4-- -.0844 -.2670 -.4344 -.6176 -.7840 -.9359 -1.0751 -1.2031 * logK= -0.434400 deltaH= -21.830000 kJ Laurionite type= chloride formula= PbCl(OH) mole vol.= 0.0000 cc mole wt.= 259.6502 g 4 species in reaction 1.000 Cl- -1.000 H+ 1.000 Pb++ 1.000 H2O .6230 .6230 .6230 .6230 .6230 .6230 .6230 .6230 * logK= 0.623000 deltaH= 0.000000 kJ Lepidocrocite type= multiple oxide formula= FeOOH mole vol.= 0.0000 cc mole wt.= 88.8537 g 3 species in reaction 1.000 Fe+++ -3.000 H+ 2.000 H2O 1.3710 1.3710 1.3710 1.3710 1.3710 1.3710 1.3710 1.3710 * logK= 1.371000 deltaH= 0.000000 kJ Li2CrO4 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 129.8716 g 2 species in reaction 1.000 CrO4-- 2.000 Li+ 5.5828 5.2039 4.8568 4.4768 4.1316 3.8166 3.5279 3.2625 * logK= 4.856800 deltaH= -45.279200 kJ Li2MoO4 type= molybdate formula= mole vol.= 0.0000 cc mole wt.= 173.8156 g 2 species in reaction 2.000 Li+ 1.000 MoO4-- 2.9858 2.7018 2.4416 2.1568 1.8980 1.6619 1.4455 1.2465 * logK= 2.441600 deltaH= -33.939900 kJ LiF type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 25.9374 g 2 species in reaction 1.000 Li+ 1.000 F- -2.8438 -2.8053 -2.7700 -2.7314 -2.6963 -2.6643 -2.6350 -2.6080 * logK= -2.770000 deltaH= 4.600000 kJ Lime type= oxide and hydroxide formula= CaO mole vol.= 0.0000 cc mole wt.= 56.0794 g 3 species in reaction -2.000 H+ 1.000 H2O 1.000 Ca++ 35.8085 34.1858 32.6993 31.0721 29.5937 28.2445 27.0083 25.8715 * logK= 32.699300 deltaH= -193.910000 kJ Litharge type= oxide and hydroxide formula= PbO mole vol.= 0.0000 cc mole wt.= 223.1893 g 3 species in reaction -2.000 H+ 1.000 Pb++ 1.000 H2O 13.7402 13.1921 12.6900 12.1403 11.6409 11.1852 10.7676 10.3836 * logK= 12.690000 deltaH= -65.501000 kJ Lu(OH)3 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 225.9889 g 3 species in reaction 1.000 Lu+++ -3.000 H+ 3.000 H2O 14.9900 14.9900 14.9900 14.9900 14.9900 14.9900 14.9900 14.9900 * logK= 14.990000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LuAsO4 type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 313.8862 g 2 species in reaction 1.000 Lu+++ 1.000 AsO4--- -22.7000 -22.7000 -22.7000 -22.7000 -22.7000 -22.7000 -22.7000 -22.7000 * logK= -22.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LuF3 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 231.9622 g 2 species in reaction 1.000 Lu+++ 3.000 F- -16.2900 -16.2900 -16.2900 -16.2900 -16.2900 -16.2900 -16.2900 -16.2900 * logK= -16.290000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C LuPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 269.9384 g 2 species in reaction 1.000 Lu+++ 1.000 PO4--- -24.8000 -24.8000 -24.8000 -24.8000 -24.8000 -24.8000 -24.8000 -24.8000 * logK= -24.800000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mackinawite type= sulfide formula= FeS mole vol.= 0.0000 cc mole wt.= 87.9110 g 3 species in reaction 1.000 Fe++ -1.000 H+ 1.000 HS- -3.6000 -3.6000 -3.6000 -3.6000 -3.6000 -3.6000 -3.6000 -3.6000 * logK= -3.600000 deltaH= 0.000000 kJ Maghemite type= multiple oxide formula= Fe2O3 mole vol.= 0.0000 cc mole wt.= 159.6922 g 3 species in reaction 2.000 Fe+++ -6.000 H+ 3.000 H2O 6.3860 6.3860 6.3860 6.3860 6.3860 6.3860 6.3860 6.3860 * logK= 6.386000 deltaH= 0.000000 kJ Magnesioferrite type= multiple oxide formula= MgFe2O4 mole vol.= 0.0000 cc mole wt.= 200.0036 g 4 species in reaction 2.000 Fe+++ -8.000 H+ 4.000 H2O 1.000 Mg++ 21.3319 18.9979 16.8597 14.5191 12.3925 10.4519 8.6738 7.0386 * logK= 16.859700 deltaH= -278.919900 kJ Magnesite type= carbonate formula= MgCO3 mole vol.= 0.0000 cc mole wt.= 84.3212 g 2 species in reaction 1.000 CO3-- 1.000 Mg++ -7.7807 -7.6133 -7.4600 -7.2922 -7.1397 -7.0005 -6.8730 -6.7558 * logK= -7.460000 deltaH= 20.000000 kJ Magnetite type= multiple oxide formula= Fe3O4 mole vol.= 0.0000 cc mole wt.= 231.5386 g 4 species in reaction 2.000 Fe+++ -8.000 H+ 1.000 Fe++ 4.000 H2O 6.7463 5.0014 3.4028 1.6529 .0631 -1.3878 -2.7172 -3.9396 * logK= 3.402800 deltaH= -208.525900 kJ Malachite type= carbonate formula= Cu2CO3(OH)2 mole vol.= 0.0000 cc mole wt.= 221.1158 g 4 species in reaction 2.000 Cu++ -2.000 H+ 2.000 H2O 1.000 CO3-- -4.7603 -5.1302 -5.4690 -5.8399 -6.1769 -6.4844 -6.7662 -7.0253 * logK= -5.469000 deltaH= -44.200000 kJ Manganite type= oxide and hydroxide formula= MnOOH mole vol.= 0.0000 cc mole wt.= 87.9447 g 4 species in reaction 1.000 Mn++ -2.000 H+ .250 O2(aq) 1.500 H2O 1.5578 2.7384 3.8200 5.0039 6.0796 7.0612 7.9607 8.7878 * logK= 3.820000 deltaH= 141.084693 kJ Massicot type= oxide and hydroxide formula= PbO mole vol.= 0.0000 cc mole wt.= 223.1893 g 3 species in reaction -2.000 H+ 1.000 Pb++ 1.000 H2O 13.9618 13.4025 12.8900 12.3290 11.8194 11.3543 10.9281 10.5362 * logK= 12.890000 deltaH= -66.848000 kJ Matlockite type= chloride formula= PbFCl mole vol.= 0.0000 cc mole wt.= 261.6413 g 3 species in reaction 1.000 Cl- 1.000 Pb++ 1.000 F- -9.5055 -9.2277 -8.9733 -8.6948 -8.4417 -8.2108 -7.9992 -7.8046 * logK= -8.973300 deltaH= 33.190000 kJ Melanothallite type= chloride formula= CuCl2 mole vol.= 0.0000 cc mole wt.= 134.4520 g 2 species in reaction 1.000 Cu++ 2.000 Cl- 7.2739 6.7433 6.2572 5.7251 5.2417 4.8005 4.3963 4.0246 * logK= 6.257200 deltaH= -63.407000 kJ Melanterite type= sulfate formula= FeSO4:7H2O mole vol.= 0.0000 cc mole wt.= 278.0150 g 3 species in reaction 1.000 Fe++ 7.000 H2O 1.000 SO4-- -2.5377 -2.3662 -2.2090 -2.0370 -1.8807 -1.7380 -1.6074 -1.4872 * logK= -2.209000 deltaH= 20.500000 kJ Metacinnabar type= sulfide formula= HgS mole vol.= 0.0000 cc mole wt.= 232.6540 g 4 species in reaction 1.000 H+ 1.000 HS- 1.000 Hg(OH)2 -2.000 H2O -48.9526 -46.8272 -44.8800 -42.7485 -40.8120 -39.0447 -37.4254 -35.9364 * logK= -44.880000 deltaH= 254.000000 kJ Mg(OH)2 (active) type= oxide and hydroxide formula= Mg(OH)2 mole vol.= 0.0000 cc mole wt.= 58.3266 g 3 species in reaction -2.000 H+ 2.000 H2O 1.000 Mg++ 18.7940 18.7940 18.7940 18.7940 18.7940 18.7940 18.7940 18.7940 * logK= 18.794000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mg(VO3)2 type= vanadate formula= mole vol.= 0.0000 cc mole wt.= 222.1914 g 4 species in reaction 2.000 H+ -2.000 H2O 1.000 Mg++ 2.000 HVO4-- -18.8322 -18.9302 -19.0200 -19.1183 -19.2075 -19.2890 -19.3637 -19.4323 * logK= -19.020000 deltaH= -11.710000 kJ Mg-Oxalate type= oxalate formula= Mg[(COO)2] mole vol.= 0.0000 cc mole wt.= 112.3316 g 2 species in reaction 1.000 Oxalate-- 1.000 Mg++ -5.6800 -5.6800 -5.6800 -5.6800 -5.6800 -5.6800 -5.6800 -5.6800 * logK= -5.680000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mg2(OH)3Cl:4H2O type= chloride formula= mole vol.= 0.0000 cc mole wt.= 207.1597 g 4 species in reaction 1.000 Cl- -3.000 H+ 7.000 H2O 2.000 Mg++ 26.0000 26.0000 26.0000 26.0000 26.0000 26.0000 26.0000 26.0000 * logK= 26.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mg2Sb3 type= antimonide formula= mole vol.= 0.0000 cc mole wt.= 413.8740 g 5 species in reaction -4.000 H+ -3.250 O2(aq) 3.000 Sb(OH)3 -2.500 H2O 2.000 Mg++ 383.8518 368.5043 354.4438 339.0529 325.0690 312.3077 300.6153 289.8629 * logK= 354.443800 deltaH= -1834.101009 kJ Mg2V2O7 type= vanadate formula= mole vol.= 0.0000 cc mole wt.= 262.5028 g 3 species in reaction -1.000 H2O 2.000 Mg++ 2.000 HVO4-- -1.8511 -2.9413 -3.9400 -5.0333 -6.0266 -6.9330 -7.7636 -8.5273 * logK= -3.940000 deltaH= -130.280000 kJ Mg3(PO4)2 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 262.8788 g 2 species in reaction 2.000 PO4--- 3.000 Mg++ -23.2800 -23.2800 -23.2800 -23.2800 -23.2800 -23.2800 -23.2800 -23.2800 * logK= -23.280000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MgCO3:5H2O type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 174.3972 g 3 species in reaction 1.000 CO3-- 5.000 H2O 1.000 Mg++ -4.5400 -4.5400 -4.5400 -4.5400 -4.5400 -4.5400 -4.5400 -4.5400 * logK= -4.540000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MgCr2O4 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 192.3016 g 3 species in reaction -4.000 H+ 2.000 Cr(OH)2+ 1.000 Mg++ 19.0772 17.5760 16.2007 14.6953 13.3274 12.0792 10.9355 9.8838 * logK= 16.200700 deltaH= -179.400000 kJ MgCrO4 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 140.3056 g 2 species in reaction 1.000 CrO4-- 1.000 Mg++ 6.8064 6.0620 5.3801 4.6337 3.9555 3.3365 2.7695 2.2480 * logK= 5.380100 deltaH= -88.951800 kJ MgF2 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 62.3088 g 2 species in reaction 2.000 F- 1.000 Mg++ -7.9817 -8.0487 -8.1100 -8.1771 -8.2381 -8.2938 -8.3448 -8.3917 * logK= -8.110000 deltaH= -8.000000 kJ MgHPO4:3H2O type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 174.3369 g 4 species in reaction 1.000 H+ 1.000 PO4--- 3.000 H2O 1.000 Mg++ -18.1750 -18.1750 -18.1750 -18.1750 -18.1750 -18.1750 -18.1750 -18.1750 * logK= -18.175000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MgMoO4 type= molybdate formula= mole vol.= 0.0000 cc mole wt.= 184.2496 g 2 species in reaction 1.000 MoO4-- 1.000 Mg++ -1.8500 -1.8500 -1.8500 -1.8500 -1.8500 -1.8500 -1.8500 -1.8500 * logK= -1.850000 deltaH= 0.000000 kJ MgS type= sulfide formula= mole vol.= 0.0000 cc mole wt.= 56.3760 g 3 species in reaction -1.000 H+ 1.000 HS- 1.000 Mg++ 17.6800 17.6800 17.6800 17.6800 17.6800 17.6800 17.6800 17.6800 * logK= 17.680000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MgSeO3:6H2O type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 259.3614 g 4 species in reaction -1.000 H+ 1.000 HSeO3- 6.000 H2O 1.000 Mg++ 2.9561 2.9999 3.0400 3.0839 3.1238 3.1602 3.1935 3.2242 * logK= 3.040000 deltaH= 5.230000 kJ MgSeO4:6H2O type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 275.3608 g 3 species in reaction 1.000 SeO4-- 6.000 H2O 1.000 Mg++ -1.2000 -1.2000 -1.2000 -1.2000 -1.2000 -1.2000 -1.2000 -1.2000 * logK= -1.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Mirabilite type= sulfate formula= Na2SO4:10H2O mole vol.= 0.0000 cc mole wt.= 322.1932 g 3 species in reaction 2.000 Na+ 10.000 H2O 1.000 SO4-- -2.3878 -1.7230 -1.1140 -.4474 .1583 .7111 1.2175 1.6832 * logK= -1.114000 deltaH= 79.441600 kJ Mn(VO3)2 type= vanadate formula= mole vol.= 0.0000 cc mole wt.= 252.8174 g 4 species in reaction 2.000 H+ 1.000 Mn++ -2.000 H2O 2.000 HVO4-- -25.9206 -25.6489 -25.4000 -25.1275 -24.8800 -24.6540 -24.4470 -24.2567 * logK= -25.400000 deltaH= 32.470000 kJ Mn2(SO4)3 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 398.0608 g 2 species in reaction 2.000 Mn+++ 3.000 SO4-- -3.0906 -4.4581 -5.7110 -7.0824 -8.3284 -9.4655 -10.5074 -11.4655 * logK= -5.711000 deltaH= -163.427000 kJ Mn2Sb type= antimonide formula= mole vol.= 0.0000 cc mole wt.= 231.6260 g 5 species in reaction 2.000 Mn++ -4.000 H+ -1.750 O2(aq) 1.000 Sb(OH)3 .500 H2O 227.5547 219.2907 211.7196 203.4322 195.9024 189.0309 182.7350 176.9453 * logK= 211.719600 deltaH= -987.592851 kJ Mn3(AsO4)2:8H2O type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 586.7740 g 3 species in reaction 3.000 Mn++ 2.000 AsO4--- 8.000 H2O -28.7000 -28.7000 -28.7000 -28.7000 -28.7000 -28.7000 -28.7000 -28.7000 * logK= -28.700000 deltaH= 0.000000 kJ Mn3(PO4)2 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 354.7568 g 2 species in reaction 3.000 Mn++ 2.000 PO4--- -23.9692 -23.8950 -23.8270 -23.7526 -23.6849 -23.6232 -23.5667 -23.5147 * logK= -23.827000 deltaH= 8.870100 kJ Mn3[Fe(CN)6]2 type= cyanide formula= mole vol.= 0.0000 cc mole wt.= 588.7204 g 3 species in reaction 2.000 Fe+++ 3.000 Mn++ 12.000 CN- -105.4000 -105.4000 -105.4000 -105.4000 -105.4000 -105.4000 -105.4000 -105.4000 * logK= -105.400000 deltaH= 0.000000 kJ MnCl2:4H2O type= chloride formula= mole vol.= 0.0000 cc mole wt.= 197.9048 g 3 species in reaction 2.000 Cl- 1.000 Mn++ 4.000 H2O 2.8887 2.7981 2.7151 2.6242 2.5416 2.4663 2.3973 2.3338 * logK= 2.715100 deltaH= -10.830000 kJ MnCO3 (am) type= carbonate formula= MnCO3 mole vol.= 0.0000 cc mole wt.= 114.9472 g 2 species in reaction 1.000 Mn++ 1.000 CO3-- -10.5000 -10.5000 -10.5000 -10.5000 -10.5000 -10.5000 -10.5000 -10.5000 * logK= -10.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MnHPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 150.9173 g 3 species in reaction 1.000 Mn++ 1.000 H+ 1.000 PO4--- -25.4000 -25.4000 -25.4000 -25.4000 -25.4000 -25.4000 -25.4000 -25.4000 * logK= -25.400000 deltaH= 0.000000 kJ MnS (grn) type= sulfide formula= MnS mole vol.= 0.0000 cc mole wt.= 87.0020 g 3 species in reaction 1.000 Mn++ -1.000 H+ 1.000 HS- .4931 .2253 -.0200 -.2885 -.5325 -.7552 -.9592 -1.1468 * logK= -0.020000 deltaH= -32.000000 kJ MnS (pnk) type= sulfide formula= MnS mole vol.= 0.0000 cc mole wt.= 87.0020 g 3 species in reaction 1.000 Mn++ -1.000 H+ 1.000 HS- 2.9800 2.9800 2.9800 2.9800 2.9800 2.9800 2.9800 2.9800 * logK= 2.980000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MnSb type= antimonide formula= mole vol.= 0.0000 cc mole wt.= 176.6880 g 4 species in reaction -3.000 H+ -1.500 O2(aq) 1.000 Mn+++ 1.000 Sb(OH)3 139.4446 132.5378 126.2101 119.2837 112.9906 107.2476 101.9857 97.1468 * logK= 126.210100 deltaH= -825.399858 kJ MnSe type= selenide formula= mole vol.= 0.0000 cc mole wt.= 133.8980 g 3 species in reaction 1.000 Mn++ 1.000 HSe- -1.000 H+ 5.0737 4.2524 3.5000 2.6764 1.9280 1.2451 .6194 .0440 * logK= 3.500000 deltaH= -98.150000 kJ MnSeO3 type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 181.8962 g 3 species in reaction 1.000 Mn++ -1.000 H+ 1.000 HSeO3- 1.1300 1.1300 1.1300 1.1300 1.1300 1.1300 1.1300 1.1300 * logK= 1.130000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MnSeO4:5H2O type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 287.9716 g 3 species in reaction 1.000 Mn++ 1.000 SeO4-- 5.000 H2O -2.0500 -2.0500 -2.0500 -2.0500 -2.0500 -2.0500 -2.0500 -2.0500 * logK= -2.050000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C MnSO4 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 150.9996 g 2 species in reaction 1.000 Mn++ 1.000 SO4-- 3.6227 3.0802 2.5831 2.0390 1.5446 1.0935 .6801 .3000 * logK= 2.583100 deltaH= -64.840100 kJ Montroydite type= oxide and hydroxide formula= HgO mole vol.= 0.0000 cc mole wt.= 216.5894 g 3 species in reaction 0.000 H+ 1.000 Hg(OH)2 -1.000 H2O -3.8919 -3.7448 -3.6100 -3.4625 -3.3284 -3.2061 -3.0940 -2.9910 * logK= -3.610000 deltaH= 17.580000 kJ MoO3 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 143.9382 g 3 species in reaction 2.000 H+ 1.000 MoO4-- -1.000 H2O -8.0000 -8.0000 -8.0000 -8.0000 -8.0000 -8.0000 -8.0000 -8.0000 * logK= -8.000000 deltaH= 0.000000 kJ Morenosite type= sulfate formula= NiSO4:7H2O mole vol.= 0.0000 cc mole wt.= 280.8780 g 3 species in reaction 1.000 Ni++ 7.000 H2O 1.000 SO4-- -2.3402 -2.2383 -2.1449 -2.0427 -1.9498 -1.8651 -1.7874 -1.7160 * logK= -2.144900 deltaH= 12.180200 kJ MoS2 type= sulfide formula= mole vol.= 0.0000 cc mole wt.= 160.0680 g 5 species in reaction 4.000 H+ -.500 O2(aq) 2.000 HS- 1.000 MoO4-- -3.000 H2O -28.9328 -28.0387 -27.2196 -26.3230 -25.5083 -24.7648 -24.0837 -23.4573 * logK= -27.219600 deltaH= 106.850514 kJ Na-Autunite type= phosphate formula= Na2(UO2)2(PO4)2 mole vol.= 0.0000 cc mole wt.= 775.9780 g 3 species in reaction 2.000 UO2++ 2.000 PO4--- 2.000 Na+ -47.3781 -47.3942 -47.4090 -47.4252 -47.4398 -47.4532 -47.4655 -47.4768 * logK= -47.409000 deltaH= -1.924600 kJ Na-Jarosite type= sulfate formula= NaFe3(SO4)2(OH)6 mole vol.= 0.0000 cc mole wt.= 484.6978 g 5 species in reaction 3.000 Fe+++ -6.000 H+ 1.000 Na+ 6.000 H2O 2.000 SO4-- -3.1435 -4.2794 -5.3200 -6.4591 -7.4940 -8.4385 -9.3038 -10.0996 * logK= -5.320000 deltaH= -135.740000 kJ Na2Cr2O7 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 261.9674 g 4 species in reaction 2.000 CrO4-- 2.000 H+ 2.000 Na+ -1.000 H2O -10.2512 -10.0655 -9.8953 -9.7090 -9.5398 -9.3854 -9.2439 -9.1137 * logK= -9.895300 deltaH= 22.196100 kJ Na2CrO4 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 161.9732 g 2 species in reaction 1.000 CrO4-- 2.000 Na+ 3.2449 3.0807 2.9302 2.7655 2.6158 2.4792 2.3541 2.2390 * logK= 2.930200 deltaH= -19.630100 kJ Na2Mo2O7 type= molybdate formula= mole vol.= 0.0000 cc mole wt.= 349.8554 g 4 species in reaction 2.000 H+ 2.000 Na+ 2.000 MoO4-- -1.000 H2O -17.4985 -17.0278 -16.5966 -16.1246 -15.6957 -15.3043 -14.9457 -14.6160 * logK= -16.596600 deltaH= 56.250200 kJ Na2MoO4 type= molybdate formula= mole vol.= 0.0000 cc mole wt.= 205.9172 g 2 species in reaction 2.000 Na+ 1.000 MoO4-- 1.6501 1.5666 1.4901 1.4064 1.3303 1.2608 1.1972 1.1387 * logK= 1.490100 deltaH= -9.980000 kJ Na2MoO4:2H2O type= molybdate formula= mole vol.= 0.0000 cc mole wt.= 241.9476 g 3 species in reaction 2.000 Na+ 1.000 MoO4-- 2.000 H2O 1.2240 1.2240 1.2240 1.2240 1.2240 1.2240 1.2240 1.2240 * logK= 1.224000 deltaH= 0.000000 kJ Na2SeO3:5H2O type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 263.0138 g 4 species in reaction -1.000 H+ 2.000 Na+ 1.000 HSeO3- 5.000 H2O 10.3000 10.3000 10.3000 10.3000 10.3000 10.3000 10.3000 10.3000 * logK= 10.300000 deltaH= 0.000000 kJ Na2SeO4 type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 188.9372 g 2 species in reaction 2.000 Na+ 1.000 SeO4-- 1.2800 1.2800 1.2800 1.2800 1.2800 1.2800 1.2800 1.2800 * logK= 1.280000 deltaH= 0.000000 kJ Na3NpO2(CO3)2 type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 458.0348 g 3 species in reaction 3.000 Na+ 1.000 NpO2+ 2.000 CO3-- -14.2800 -14.2800 -14.2800 -14.2800 -14.2800 -14.2800 -14.2800 -14.2800 * logK= -14.280000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Na3Sb type= antimonide formula= mole vol.= 0.0000 cc mole wt.= 190.7194 g 4 species in reaction -3.000 H+ -1.500 O2(aq) 3.000 Na+ 1.000 Sb(OH)3 244.0734 233.3740 223.5717 212.8420 203.0931 194.1966 186.0453 178.5493 * logK= 223.571700 deltaH= -1278.638158 kJ Na3VO4 type= vanadate formula= mole vol.= 0.0000 cc mole wt.= 183.9085 g 3 species in reaction -1.000 H+ 3.000 Na+ 1.000 HVO4-- 23.7400 22.1953 20.7800 19.2308 17.8233 16.5388 15.3619 14.2797 * logK= 20.780000 deltaH= -184.610000 kJ Na4V2O7 type= vanadate formula= mole vol.= 0.0000 cc mole wt.= 305.8380 g 3 species in reaction 4.000 Na+ -1.000 H2O 2.000 HVO4-- 8.3211 7.6839 7.1000 6.4609 5.8802 5.3503 4.8648 4.4183 * logK= 7.100000 deltaH= -76.160000 kJ NaCN (cubic) type= cyanide formula= NaCN mole vol.= 0.0000 cc mole wt.= 49.0075 g 2 species in reaction 1.000 Na+ 1.000 CN- 1.5857 1.5938 1.6012 1.6093 1.6167 1.6235 1.6296 1.6353 * logK= 1.601200 deltaH= 0.969000 kJ NaF type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 41.9882 g 2 species in reaction 1.000 Na+ 1.000 F- -.5028 -.4961 -.4900 -.4833 -.4772 -.4716 -.4665 -.4618 * logK= -0.490000 deltaH= 0.800000 kJ NaNpO2CO3:3.5H2O type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 415.0992 g 4 species in reaction 1.000 Na+ 1.000 NpO2+ 1.000 CO3-- 3.500 H2O -11.0600 -11.0600 -11.0600 -11.0600 -11.0600 -11.0600 -11.0600 -11.0600 * logK= -11.060000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Nantokite type= chloride formula= CuCl mole vol.= 0.0000 cc mole wt.= 98.9990 g 2 species in reaction 1.000 Cl- 1.000 Cu+ -7.4140 -7.0571 -6.7300 -6.3720 -6.0467 -5.7499 -5.4779 -5.2278 * logK= -6.730000 deltaH= 42.662000 kJ NaSb type= antimonide formula= mole vol.= 0.0000 cc mole wt.= 144.7398 g 5 species in reaction -1.000 H+ -1.000 O2(aq) 1.000 Na+ 1.000 Sb(OH)3 -1.000 H2O 119.7928 114.2885 109.2458 103.7259 98.7107 94.1339 89.9405 86.0843 * logK= 109.245800 deltaH= -657.788772 kJ Natron type= formula= Na2CO3:10H2O mole vol.= 0.0000 cc mole wt.= 286.1408 g 3 species in reaction 2.000 Na+ 1.000 CO3-- 10.000 H2O -2.3673 -1.8160 -1.3110 -.7582 -.2559 .2024 .6224 1.0086 * logK= -1.311000 deltaH= 65.877100 kJ NaVO3 type= vanadate formula= mole vol.= 0.0000 cc mole wt.= 121.9295 g 4 species in reaction 1.000 H+ 1.000 Na+ -1.000 H2O 1.000 HVO4-- -11.5561 -11.8086 -12.0400 -12.2933 -12.5234 -12.7333 -12.9257 -13.1027 * logK= -12.040000 deltaH= -30.179900 kJ Nd(OH)3 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 195.2619 g 3 species in reaction -3.000 H+ 3.000 H2O 1.000 Nd+++ 18.0900 18.0900 18.0900 18.0900 18.0900 18.0900 18.0900 18.0900 * logK= 18.090000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Nd2(CO3)3 type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 468.5076 g 2 species in reaction 3.000 CO3-- 2.000 Nd+++ -33.0000 -33.0000 -33.0000 -33.0000 -33.0000 -33.0000 -33.0000 -33.0000 * logK= -33.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Nd2-(Oxalate)3 type= oxalate formula= Nd2[(COO)2]3 mole vol.= 0.0000 cc mole wt.= 552.5388 g 2 species in reaction 3.000 Oxalate-- 2.000 Nd+++ -31.1100 -31.1100 -31.1100 -31.1100 -31.1100 -31.1100 -31.1100 -31.1100 * logK= -31.110000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NdAsO4 type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 283.1592 g 2 species in reaction 1.000 AsO4--- 1.000 Nd+++ -21.9000 -21.9000 -21.9000 -21.9000 -21.9000 -21.9000 -21.9000 -21.9000 * logK= -21.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NdF3 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 201.2352 g 2 species in reaction 3.000 F- 1.000 Nd+++ -20.3000 -20.3000 -20.3000 -20.3000 -20.3000 -20.3000 -20.3000 -20.3000 * logK= -20.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NdPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 239.2114 g 2 species in reaction 1.000 PO4--- 1.000 Nd+++ -26.2000 -26.2000 -26.2000 -26.2000 -26.2000 -26.2000 -26.2000 -26.2000 * logK= -26.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Nesquehonite type= carbonate formula= MgCO3:3H2O mole vol.= 0.0000 cc mole wt.= 138.3668 g 3 species in reaction 1.000 CO3-- 3.000 H2O 1.000 Mg++ -4.2816 -4.4843 -4.6700 -4.8733 -5.0579 -5.2265 -5.3809 -5.5229 * logK= -4.670000 deltaH= -24.221200 kJ NH4VO3 type= vanadate formula= mole vol.= 0.0000 cc mole wt.= 116.9780 g 4 species in reaction 1.000 H+ 1.000 NH4+ -1.000 H2O 1.000 HVO4-- -13.2088 -12.8180 -12.4600 -12.0681 -11.7121 -11.3871 -11.0894 -10.8156 * Weight read from thermo.mdb (181.8821) does not match weight computed from * components (116.978) -- using weight computed from components. * logK= -12.460000 deltaH= 46.700000 kJ Ni(OH)2 (am) type= oxide and hydroxide formula= Ni(OH)2 mole vol.= 0.0000 cc mole wt.= 92.7246 g 3 species in reaction -2.000 H+ 1.000 Ni++ 2.000 H2O 14.4286 13.6256 12.8900 12.0847 11.3531 10.6854 10.0737 9.5111 * logK= 12.890000 deltaH= -95.960000 kJ Ni(OH)2 (c) type= oxide and hydroxide formula= Ni(OH)2 mole vol.= 0.0000 cc mole wt.= 92.7246 g 3 species in reaction -2.000 H+ 1.000 Ni++ 2.000 H2O 10.7900 10.7900 10.7900 10.7900 10.7900 10.7900 10.7900 10.7900 * logK= 10.790000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Ni3(AsO4)2:8H2O type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 598.0900 g 3 species in reaction 2.000 AsO4--- 3.000 Ni++ 8.000 H2O -25.5000 -25.5000 -25.5000 -25.5000 -25.5000 -25.5000 -25.5000 -25.5000 * logK= -25.500000 deltaH= 0.000000 kJ Ni3(PO4)2 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 366.0728 g 2 species in reaction 2.000 PO4--- 3.000 Ni++ -31.3000 -31.3000 -31.3000 -31.3000 -31.3000 -31.3000 -31.3000 -31.3000 * logK= -31.300000 deltaH= 0.000000 kJ Ni4(OH)6SO4 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 432.9454 g 4 species in reaction -6.000 H+ 4.000 Ni++ 6.000 H2O 1.000 SO4-- 32.0000 32.0000 32.0000 32.0000 32.0000 32.0000 32.0000 32.0000 * logK= 32.000000 deltaH= 0.000000 kJ NiCO3 type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 118.7192 g 2 species in reaction 1.000 Ni++ 1.000 CO3-- -10.5332 -10.8812 -11.2000 -11.5490 -11.8661 -12.1555 -12.4206 -12.6644 * logK= -11.200000 deltaH= -41.589000 kJ NiMoO4 type= molybdate formula= mole vol.= 0.0000 cc mole wt.= 218.6476 g 2 species in reaction 1.000 Ni++ 1.000 MoO4-- -11.1629 -11.1521 -11.1421 -11.1312 -11.1213 -11.1122 -11.1039 -11.0963 * logK= -11.142100 deltaH= 1.300000 kJ Ningyoite type= phosphate formula= CaU(PO4)2:2H2O mole vol.= 0.0000 cc mole wt.= 504.0822 g 4 species in reaction 1.000 U++++ 2.000 PO4--- 2.000 H2O 1.000 Ca++ -53.7537 -53.8332 -53.9060 -53.9857 -54.0581 -54.1242 -54.1847 -54.2404 * logK= -53.906000 deltaH= -9.497700 kJ NiS (alpha) type= sulfide formula= NiS mole vol.= 0.0000 cc mole wt.= 90.7740 g 3 species in reaction -1.000 H+ 1.000 Ni++ 1.000 HS- -5.5200 -5.5200 -5.5200 -5.5200 -5.5200 -5.5200 -5.5200 -5.5200 * logK= -5.520000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NiS (beta) type= sulfide formula= NiS mole vol.= 0.0000 cc mole wt.= 90.7740 g 3 species in reaction -1.000 H+ 1.000 Ni++ 1.000 HS- -11.0200 -11.0200 -11.0200 -11.0200 -11.0200 -11.0200 -11.0200 -11.0200 * logK= -11.020000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NiS (gamma) type= sulfide formula= NiS mole vol.= 0.0000 cc mole wt.= 90.7740 g 3 species in reaction -1.000 H+ 1.000 Ni++ 1.000 HS- -12.7200 -12.7200 -12.7200 -12.7200 -12.7200 -12.7200 -12.7200 -12.7200 * logK= -12.720000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NiSe type= selenide formula= mole vol.= 0.0000 cc mole wt.= 137.6700 g 3 species in reaction 1.000 HSe- -1.000 H+ 1.000 Ni++ -17.7000 -17.7000 -17.7000 -17.7000 -17.7000 -17.7000 -17.7000 -17.7000 * logK= -17.700000 deltaH= 0.000000 kJ NiSeO3:2H2O type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 221.6986 g 4 species in reaction -1.000 H+ 1.000 Ni++ 1.000 HSeO3- 2.000 H2O 3.3118 3.0524 2.8147 2.5545 2.3182 2.1024 1.9048 1.7230 * logK= 2.814700 deltaH= -31.003400 kJ NiSeO4:6H2O type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 309.7588 g 3 species in reaction 1.000 Ni++ 1.000 SeO4-- 6.000 H2O -1.5200 -1.5200 -1.5200 -1.5200 -1.5200 -1.5200 -1.5200 -1.5200 * logK= -1.520000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Np(OH)4 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 305.0774 g 3 species in reaction -4.000 H+ 1.000 Np++++ 4.000 H2O 1.5000 1.5000 1.5000 1.5000 1.5000 1.5000 1.5000 1.5000 * logK= 1.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Np2O5 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 554.0934 g 3 species in reaction -2.000 H+ 2.000 NpO2+ 1.000 H2O 5.2000 5.2000 5.2000 5.2000 5.2000 5.2000 5.2000 5.2000 * logK= 5.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 269.0470 g 3 species in reaction -4.000 H+ 1.000 Np++++ 2.000 H2O -9.9000 -9.9000 -9.9000 -9.9000 -9.9000 -9.9000 -9.9000 -9.9000 * logK= -9.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2CO3 type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 329.0562 g 2 species in reaction 1.000 NpO2++ 1.000 CO3-- -14.7600 -14.7600 -14.7600 -14.7600 -14.7600 -14.7600 -14.7600 -14.7600 * logK= -14.760000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2OH (am) type= oxide and hydroxide formula= NpO2OH mole vol.= 0.0000 cc mole wt.= 286.0543 g 3 species in reaction -1.000 H+ 1.000 NpO2+ 1.000 H2O 5.2300 5.2300 5.2300 5.2300 5.2300 5.2300 5.2300 5.2300 * logK= 5.230000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C NpO2OH (c) type= oxide and hydroxide formula= NpO2OH mole vol.= 0.0000 cc mole wt.= 286.0543 g 3 species in reaction -1.000 H+ 1.000 NpO2+ 1.000 H2O 4.5200 4.5200 4.5200 4.5200 4.5200 4.5200 4.5200 4.5200 * logK= 4.520000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Nsutite type= oxide and hydroxide formula= MnO2 mole vol.= 0.0000 cc mole wt.= 86.9368 g 4 species in reaction -3.000 H+ .250 O2(aq) 1.000 Mn+++ 1.500 H2O -6.2782 -5.0976 -4.0160 -2.8321 -1.7564 -.7748 .1247 .9518 * logK= -4.016000 deltaH= 141.084693 kJ Orpiment type= sulfide formula= As2S3 mole vol.= 0.0000 cc mole wt.= 246.0352 g 4 species in reaction 2.000 H3AsO3 3.000 H+ 3.000 HS- -6.000 H2O -50.5185 -48.3170 -46.3000 -44.0922 -42.0862 -40.2556 -38.5784 -37.0359 * logK= -46.300000 deltaH= 263.100000 kJ Orthorhombite type= carbonate formula= AmCO3(OH) mole vol.= 0.0000 cc mole wt.= 320.0165 g 4 species in reaction -1.000 H+ 1.000 Am+++ 1.000 CO3-- 1.000 H2O -8.2000 -8.2000 -8.2000 -8.2000 -8.2000 -8.2000 -8.2000 -8.2000 * logK= -8.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Otavite type= carbonate formula= CdCO3 mole vol.= 0.0000 cc mole wt.= 172.4086 g 2 species in reaction 1.000 Cd++ 1.000 CO3-- -12.1190 -12.0621 -12.0100 -11.9529 -11.9011 -11.8538 -11.8104 -11.7706 * logK= -12.010000 deltaH= 6.800000 kJ Pb metal type= elemental formula= Pb mole vol.= 0.0000 cc mole wt.= 207.1899 g 4 species in reaction -2.000 H+ -.500 O2(aq) 1.000 Pb++ 1.000 H2O 51.7958 49.4423 47.2862 44.9261 42.7817 40.8249 39.0319 37.3831 * logK= 47.286200 deltaH= -281.249386 kJ Pb(BO2)2 type= borate formula= mole vol.= 0.0000 cc mole wt.= 292.8075 g 4 species in reaction 2.000 H3BO3 -2.000 H+ 1.000 Pb++ -2.000 H2O 6.7695 6.6389 6.5192 6.3882 6.2692 6.1605 6.0610 5.9695 * logK= 6.519200 deltaH= -15.611900 kJ Pb(OH)2 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 241.2045 g 3 species in reaction -2.000 H+ 1.000 Pb++ 2.000 H2O 9.0885 8.5987 8.1500 7.6588 7.2125 6.8053 6.4321 6.0889 * logK= 8.150000 deltaH= -58.534200 kJ Pb-Oxalate type= oxalate formula= Pb[(COO)2] mole vol.= 0.0000 cc mole wt.= 295.2095 g 2 species in reaction 1.000 Pb++ 1.000 Oxalate-- -8.9400 -8.9400 -8.9400 -8.9400 -8.9400 -8.9400 -8.9400 -8.9400 * logK= -8.940000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb10(OH)6O(CO3)6 type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 2549.9974 g 4 species in reaction -8.000 H+ 10.000 Pb++ 6.000 CO3-- 7.000 H2O -8.7600 -8.7600 -8.7600 -8.7600 -8.7600 -8.7600 -8.7600 -8.7600 * logK= -8.760000 deltaH= 0.000000 kJ Pb2(OH)3Cl type= chloride formula= mole vol.= 0.0000 cc mole wt.= 500.8547 g 4 species in reaction 1.000 Cl- -3.000 H+ 2.000 Pb++ 3.000 H2O 8.7930 8.7930 8.7930 8.7930 8.7930 8.7930 8.7930 8.7930 * logK= 8.793000 deltaH= 0.000000 kJ Pb2Fe(CN)6 type= cyanide formula= mole vol.= 0.0000 cc mole wt.= 626.3330 g 3 species in reaction 1.000 Fe++ 2.000 Pb++ 6.000 CN- -53.4200 -53.4200 -53.4200 -53.4200 -53.4200 -53.4200 -53.4200 -53.4200 * logK= -53.420000 deltaH= 0.000000 kJ Pb2O(OH)2 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 464.3938 g 3 species in reaction -4.000 H+ 2.000 Pb++ 3.000 H2O 26.1900 26.1900 26.1900 26.1900 26.1900 26.1900 26.1900 26.1900 * logK= 26.190000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pb2O3 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 462.3780 g 4 species in reaction -4.000 H+ .500 O2(aq) 2.000 Pb++ 2.000 H2O 13.4757 15.8368 18.0000 20.3678 22.5192 24.4825 26.2813 27.9355 * logK= 18.000000 deltaH= 282.169386 kJ Pb2OCO3 type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 490.3884 g 4 species in reaction -2.000 H+ 2.000 Pb++ 1.000 H2O 1.000 CO3-- .0967 -.2449 -.5578 -.9003 -1.2116 -1.4956 -1.7558 -1.9951 * logK= -0.557800 deltaH= -40.819900 kJ Pb2V2O7 type= vanadate formula= mole vol.= 0.0000 cc mole wt.= 628.2586 g 3 species in reaction 2.000 Pb++ -1.000 H2O 2.000 HVO4-- -33.7713 -32.9513 -32.2000 -31.3776 -30.6304 -29.9486 -29.3238 -28.7493 * logK= -32.200000 deltaH= 98.000000 kJ Pb3(AsO4)2 type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 899.4081 g 2 species in reaction 2.000 AsO4--- 3.000 Pb++ -35.5000 -35.5000 -35.5000 -35.5000 -35.5000 -35.5000 -35.5000 -35.5000 * logK= -35.500000 deltaH= 0.000000 kJ Pb3(PO4)2 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 811.5125 g 2 species in reaction 2.000 PO4--- 3.000 Pb++ -43.5300 -43.5300 -43.5300 -43.5300 -43.5300 -43.5300 -43.5300 -43.5300 * logK= -43.530000 deltaH= 0.000000 kJ Pb3(VO4)2 type= vanadate formula= mole vol.= 0.0000 cc mole wt.= 851.4479 g 3 species in reaction -2.000 H+ 3.000 Pb++ 2.000 HVO4-- -24.9987 -24.5610 -24.1600 -23.7210 -23.3222 -22.9582 -22.6248 -22.3181 * logK= -24.160000 deltaH= 52.310000 kJ Pb3O2CO3 type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 713.5777 g 4 species in reaction -4.000 H+ 3.000 Pb++ 1.000 CO3-- 2.000 H2O 12.7931 11.8677 11.0200 10.0920 9.2489 8.4795 7.7745 7.1262 * logK= 11.020000 deltaH= -110.583100 kJ Pb3O2SO4 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 749.6301 g 4 species in reaction -4.000 H+ 3.000 Pb++ 2.000 H2O 1.000 SO4-- 11.9553 11.2931 10.6864 10.0223 9.4189 8.8683 8.3637 7.8998 * logK= 10.686400 deltaH= -79.140000 kJ Pb4(OH)6SO4 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 1026.8650 g 4 species in reaction -6.000 H+ 4.000 Pb++ 6.000 H2O 1.000 SO4-- 21.1000 21.1000 21.1000 21.1000 21.1000 21.1000 21.1000 21.1000 * logK= 21.100000 deltaH= 0.000000 kJ Pb4O3SO4 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 972.8194 g 4 species in reaction -6.000 H+ 4.000 Pb++ 3.000 H2O 1.000 SO4-- 24.0650 22.9233 21.8772 20.7322 19.6918 18.7424 17.8726 17.0726 * logK= 21.877200 deltaH= -136.450100 kJ PbBr2 type= bromide formula= mole vol.= 0.0000 cc mole wt.= 366.9979 g 2 species in reaction 2.000 Br- 1.000 Pb++ -5.8692 -5.5721 -5.3000 -5.0021 -4.7315 -4.4845 -4.2581 -4.0500 * logK= -5.300000 deltaH= 35.499000 kJ PbBrF type= bromide formula= mole vol.= 0.0000 cc mole wt.= 306.0923 g 3 species in reaction 1.000 Br- 1.000 Pb++ 1.000 F- -8.4900 -8.4900 -8.4900 -8.4900 -8.4900 -8.4900 -8.4900 -8.4900 * logK= -8.490000 deltaH= 0.000000 kJ PbCrO4 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 323.1835 g 2 species in reaction 1.000 CrO4-- 1.000 Pb++ -13.3084 -12.9387 -12.6000 -12.2293 -11.8924 -11.5850 -11.3034 -11.0444 * logK= -12.600000 deltaH= 44.180000 kJ PbF2 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 245.1867 g 2 species in reaction 1.000 Pb++ 2.000 F- -7.7607 -7.5933 -7.4400 -7.2722 -7.1197 -6.9805 -6.8530 -6.7358 * logK= -7.440000 deltaH= 20.000000 kJ PbHPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 303.1692 g 3 species in reaction 1.000 H+ 1.000 PO4--- 1.000 Pb++ -23.8050 -23.8050 -23.8050 -23.8050 -23.8050 -23.8050 -23.8050 -23.8050 * logK= -23.805000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PbI2 type= iodide formula= mole vol.= 0.0000 cc mole wt.= 460.9987 g 2 species in reaction 1.000 Pb++ 2.000 I- -9.0941 -8.5753 -8.1000 -7.5797 -7.1070 -6.6756 -6.2804 -5.9169 * logK= -8.100000 deltaH= 62.000000 kJ PbMoO4 type= molybdate formula= mole vol.= 0.0000 cc mole wt.= 367.1275 g 2 species in reaction 1.000 Pb++ 1.000 MoO4-- -16.4847 -16.0334 -15.6200 -15.1674 -14.7563 -14.3810 -14.0372 -13.7211 * logK= -15.620000 deltaH= 53.930000 kJ PbO:0.3H2O type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 229.1343 g 3 species in reaction -2.000 H+ 1.000 Pb++ 1.330 H2O 12.9800 12.9800 12.9800 12.9800 12.9800 12.9800 12.9800 12.9800 * logK= 12.980000 deltaH= 0.000000 kJ PbSeO4 type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 350.1475 g 2 species in reaction 1.000 Pb++ 1.000 SeO4-- -7.0805 -6.9550 -6.8400 -6.7141 -6.5998 -6.4954 -6.3998 -6.3118 * logK= -6.840000 deltaH= 15.000000 kJ Pd(OH)2 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 140.4346 g 3 species in reaction -2.000 H+ 1.000 Pd++ 2.000 H2O -3.4500 -3.4500 -3.4500 -3.4500 -3.4500 -3.4500 -3.4500 -3.4500 * logK= -3.450000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PdI2 type= iodide formula= mole vol.= 0.0000 cc mole wt.= 360.2288 g 2 species in reaction 1.000 Pd++ 2.000 I- -31.7600 -31.7600 -31.7600 -31.7600 -31.7600 -31.7600 -31.7600 -31.7600 * logK= -31.760000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Periclase type= oxide and hydroxide formula= MgO mole vol.= 0.0000 cc mole wt.= 40.3114 g 3 species in reaction -2.000 H+ 1.000 H2O 1.000 Mg++ 24.0089 22.7435 21.5841 20.3150 19.1620 18.1098 17.1457 16.2591 * logK= 21.584100 deltaH= -151.230000 kJ Phosgenite type= chloride formula= (PbCl)2CO3 mole vol.= 0.0000 cc mole wt.= 545.2950 g 3 species in reaction 2.000 Cl- 2.000 Pb++ 1.000 CO3-- -19.8100 -19.8100 -19.8100 -19.8100 -19.8100 -19.8100 -19.8100 -19.8100 * logK= -19.810000 deltaH= 0.000000 kJ Plattnerite type= oxide and hydroxide formula= PbO2 mole vol.= 0.0000 cc mole wt.= 239.1887 g 4 species in reaction -2.000 H+ .500 O2(aq) 1.000 Pb++ 1.000 H2O 6.7862 6.6682 6.5601 6.4418 6.3343 6.2362 6.1463 6.0636 * logK= 6.560100 deltaH= -14.100614 kJ Plumbgummite type= phosphate formula= PbAl3(PO4)2(OH)5:H2O mole vol.= 0.0000 cc mole wt.= 581.1289 g 5 species in reaction -5.000 H+ 3.000 Al+++ 2.000 PO4--- 1.000 Pb++ 6.000 H2O -32.7900 -32.7900 -32.7900 -32.7900 -32.7900 -32.7900 -32.7900 -32.7900 * logK= -32.790000 deltaH= 0.000000 kJ Portlandite type= oxide and hydroxide formula= Ca(OH)2 mole vol.= 0.0000 cc mole wt.= 74.0946 g 3 species in reaction -2.000 H+ 2.000 H2O 1.000 Ca++ 24.7663 23.6900 22.7040 21.6247 20.6440 19.7491 18.9292 18.1751 * logK= 22.704000 deltaH= -128.620000 kJ Powellite type= molybdate formula= CaMoO4 mole vol.= 0.0000 cc mole wt.= 200.0176 g 2 species in reaction 1.000 MoO4-- 1.000 Ca++ -7.4390 -7.6900 -7.9200 -8.1717 -8.4005 -8.6092 -8.8005 -8.9763 * logK= -7.920000 deltaH= -30.000000 kJ Pr(OH)3 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 191.9299 g 3 species in reaction -3.000 H+ 1.000 Pr+++ 3.000 H2O 19.4910 19.4910 19.4910 19.4910 19.4910 19.4910 19.4910 19.4910 * logK= 19.491000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PrAsO4 type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 279.8272 g 2 species in reaction 1.000 AsO4--- 1.000 Pr+++ -22.0000 -22.0000 -22.0000 -22.0000 -22.0000 -22.0000 -22.0000 -22.0000 * logK= -22.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PrF3 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 197.9032 g 2 species in reaction 1.000 Pr+++ 3.000 F- -20.1900 -20.1900 -20.1900 -20.1900 -20.1900 -20.1900 -20.1900 -20.1900 * logK= -20.190000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PrPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 235.8794 g 2 species in reaction 1.000 PO4--- 1.000 Pr+++ -26.4000 -26.4000 -26.4000 -26.4000 -26.4000 -26.4000 -26.4000 -26.4000 * logK= -26.400000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Przhevalskite type= phosphate formula= Pb(UO2)2(PO4)2 mole vol.= 0.0000 cc mole wt.= 937.1883 g 3 species in reaction 2.000 UO2++ 2.000 PO4--- 1.000 Pb++ -43.6271 -44.0122 -44.3650 -44.7512 -45.1021 -45.4223 -45.7157 -45.9856 * logK= -44.365000 deltaH= -46.024000 kJ Pu(OH)3 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 295.0219 g 3 species in reaction -3.000 H+ 1.000 Pu+++ 3.000 H2O 15.7900 15.7900 15.7900 15.7900 15.7900 15.7900 15.7900 15.7900 * logK= 15.790000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pu(OH)4 (am) type= oxide and hydroxide formula= Pu(OH)4 mole vol.= 0.0000 cc mole wt.= 312.0292 g 3 species in reaction 1.000 Pu++++ -4.000 H+ 4.000 H2O -2.5100 -2.5100 -2.5100 -2.5100 -2.5100 -2.5100 -2.5100 -2.5100 * logK= -2.510000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuO2 (c) type= oxide and hydroxide formula= PuO2 mole vol.= 0.0000 cc mole wt.= 275.9988 g 3 species in reaction 1.000 Pu++++ -4.000 H+ 2.000 H2O -7.8100 -7.8100 -7.8100 -7.8100 -7.8100 -7.8100 -7.8100 -7.8100 * logK= -7.810000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuO2(OH)2 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 310.0134 g 3 species in reaction -2.000 H+ 1.000 PuO2++ 2.000 H2O 5.2900 5.2900 5.2900 5.2900 5.2900 5.2900 5.2900 5.2900 * logK= 5.290000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuO2CO3 type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 336.0080 g 2 species in reaction 1.000 PuO2++ 1.000 CO3-- -14.3000 -14.3000 -14.3000 -14.3000 -14.3000 -14.3000 -14.3000 -14.3000 * logK= -14.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuO2OH (am) type= oxide and hydroxide formula= PuO2OH mole vol.= 0.0000 cc mole wt.= 293.0061 g 3 species in reaction 1.000 PuO2+ -1.000 H+ 1.000 H2O 5.1000 5.1000 5.1000 5.1000 5.1000 5.1000 5.1000 5.1000 * logK= 5.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuOHCO3 type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 321.0165 g 4 species in reaction -1.000 H+ 1.000 Pu+++ 1.000 CO3-- 1.000 H2O -7.2000 -7.2000 -7.2000 -7.2000 -7.2000 -7.2000 -7.2000 -7.2000 * logK= -7.200000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C PuPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 338.9714 g 2 species in reaction 1.000 Pu+++ 1.000 PO4--- -24.6000 -24.6000 -24.6000 -24.6000 -24.6000 -24.6000 -24.6000 -24.6000 * logK= -24.600000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Pyrite type= sulfide formula= FeS2 mole vol.= 0.0000 cc mole wt.= 119.9750 g 4 species in reaction 1.000 Fe++ .500 O2(aq) 2.000 HS- -1.000 H2O -66.8717 -64.0935 -61.5482 -58.7621 -56.2307 -53.9206 -51.8040 -49.8576 * logK= -61.548200 deltaH= 332.013386 kJ Pyrochroite type= oxide and hydroxide formula= Mn(OH)2 mole vol.= 0.0000 cc mole wt.= 88.9526 g 3 species in reaction 1.000 Mn++ -2.000 H+ 2.000 H2O 16.7495 15.9377 15.1940 14.3799 13.6403 12.9653 12.3469 11.7782 * logK= 15.194000 deltaH= -97.009900 kJ Pyrolusite type= oxide and hydroxide formula= MnO2 mole vol.= 0.0000 cc mole wt.= 86.9368 g 4 species in reaction 1.000 Mn++ -2.000 H+ .500 O2(aq) 1.000 H2O -1.8231 -1.7380 -1.6600 -1.5747 -1.4971 -1.4264 -1.3615 -1.3019 * logK= -1.660000 deltaH= 10.169386 kJ Pyromorphite type= phosphate formula= Pb5(PO4)3Cl mole vol.= 0.0000 cc mole wt.= 1356.3167 g 3 species in reaction 1.000 Cl- 3.000 PO4--- 5.000 Pb++ -84.4300 -84.4300 -84.4300 -84.4300 -84.4300 -84.4300 -84.4300 -84.4300 * logK= -84.430000 deltaH= 0.000000 kJ Quartz type= oxide and hydroxide formula= SiO2 mole vol.= 0.0000 cc mole wt.= 60.0843 g 2 species in reaction 1.000 H4SiO4 -2.000 H2O -4.3585 -4.1714 -4.0000 -3.8124 -3.6419 -3.4863 -3.3438 -3.2127 * logK= -4.000000 deltaH= 22.360000 kJ Realgar type= sulfide formula= AsS mole vol.= 0.0000 cc mole wt.= 106.9856 g 5 species in reaction 1.000 H3AsO3 1.000 H+ -.250 O2(aq) 1.000 HS- -2.500 H2O 1.7656 1.6666 1.5760 1.4768 1.3867 1.3044 1.2290 1.1597 * logK= 1.576000 deltaH= -11.822193 kJ Retgersite type= sulfate formula= NiSO4:6H2O mole vol.= 0.0000 cc mole wt.= 262.8628 g 3 species in reaction 1.000 Ni++ 6.000 H2O 1.000 SO4-- -2.1138 -2.0753 -2.0400 -2.0014 -1.9663 -1.9343 -1.9049 -1.8779 * logK= -2.040000 deltaH= 4.602400 kJ Rhodochrosite type= carbonate formula= MnCO3 mole vol.= 0.0000 cc mole wt.= 114.9472 g 2 species in reaction 1.000 Mn++ 1.000 CO3-- -10.9699 -10.9856 -11.0000 -11.0158 -11.0301 -11.0432 -11.0552 -11.0662 * logK= -11.000000 deltaH= -1.880000 kJ Rutherfordine type= carbonate formula= UO2CO3 mole vol.= 0.0000 cc mole wt.= 330.0370 g 2 species in reaction 1.000 UO2++ 1.000 CO3-- -14.4664 -14.4460 -14.4621 -14.5235 -14.6247 -14.7606 -14.9268 -15.1197 * logK= -14.760000 deltaH= -3.030000 kJ * analytic data = -4.54 .03318 2716 0 0 0 0 Rutile type= oxide and hydroxide formula= TiO2 mole vol.= 0.0000 cc mole wt.= 79.8988 g 2 species in reaction -2.000 H2O 1.000 Ti(OH)4 -7.6200 -7.6200 -7.6200 -7.6200 -7.6200 -7.6200 -7.6200 -7.6200 * logK= -7.620000 deltaH= 0.000000 kJ Saleeite type= phosphate formula= Mg(UO2)2(PO4)2 mole vol.= 0.0000 cc mole wt.= 754.3104 g 3 species in reaction 2.000 UO2++ 2.000 PO4--- 1.000 Mg++ -42.2922 -42.9987 -43.6460 -44.3545 -44.9983 -45.5857 -46.1240 -46.6190 * logK= -43.646000 deltaH= -84.433100 kJ Sb metal type= elemental formula= Sb mole vol.= 0.0000 cc mole wt.= 121.7500 g 3 species in reaction -.750 O2(aq) 1.000 Sb(OH)3 -1.500 H2O 58.3125 55.4727 52.8711 50.0233 47.4359 45.0746 42.9112 40.9217 * logK= 52.871100 deltaH= -339.364079 kJ Sb2O3(s) type= formula= Sb2O3 mole vol.= 0.0000 cc mole wt.= 291.4982 g 2 species in reaction 2.000 Sb(OH)3 -3.000 H2O -8.4800 -8.4800 -8.4800 -8.4800 -8.4800 -8.4800 -8.4800 -8.4800 * logK= -8.480000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sb2O4 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 307.4976 g 3 species in reaction .500 O2(aq) 2.000 Sb(OH)3 -3.000 H2O -43.0712 -41.2795 -39.6379 -37.8410 -36.2084 -34.7186 -33.3535 -32.0981 * logK= -39.637900 deltaH= 214.129386 kJ Sb2O5 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 323.4970 g 3 species in reaction 2.000 Sb(OH)6- 2.000 H+ -7.000 H2O -11.0400 -11.0400 -11.0400 -11.0400 -11.0400 -11.0400 -11.0400 -11.0400 * logK= -11.040000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sb2Se3 type= selenide formula= mole vol.= 0.0000 cc mole wt.= 480.3800 g 4 species in reaction 3.000 HSe- 3.000 H+ 2.000 Sb(OH)3 -6.000 H2O -73.2575 -70.3870 -67.7571 -64.8784 -62.2629 -59.8761 -57.6891 -55.6780 * logK= -67.757100 deltaH= 343.046100 kJ Sb4O6 (cubic) type= oxide and hydroxide formula= Sb4O6 mole vol.= 0.0000 cc mole wt.= 582.9964 g 3 species in reaction 0.000 H+ 4.000 Sb(OH)3 -6.000 H2O -19.5410 -19.0290 -18.5600 -18.0466 -17.5801 -17.1545 -16.7644 -16.4058 * logK= -18.560000 deltaH= 61.180100 kJ Sb4O6 (rhombic) type= oxide and hydroxide formula= Sb4O6 mole vol.= 0.0000 cc mole wt.= 582.9964 g 3 species in reaction 0.000 H+ 4.000 Sb(OH)3 -6.000 H2O -18.3142 -17.9989 -17.7100 -17.3938 -17.1065 -16.8443 -16.6041 -16.3832 * logK= -17.710000 deltaH= 37.680100 kJ SbBr3 type= bromide formula= mole vol.= 0.0000 cc mole wt.= 361.4620 g 4 species in reaction 3.000 Br- 3.000 H+ 1.000 Sb(OH)3 -3.000 H2O 1.3047 1.1294 .9689 .7932 .6335 .4878 .3543 .2316 * logK= 0.968900 deltaH= -20.940000 kJ SbCl3 type= chloride formula= mole vol.= 0.0000 cc mole wt.= 228.1090 g 4 species in reaction 3.000 Cl- 3.000 H+ 1.000 Sb(OH)3 -3.000 H2O 1.1360 .8416 .5719 .2767 .0085 -.2363 -.4606 -.6668 * logK= 0.571900 deltaH= -35.180000 kJ SbF3 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 178.7452 g 4 species in reaction 3.000 H+ 1.000 Sb(OH)3 3.000 F- -3.000 H2O -10.1172 -10.1735 -10.2251 -10.2816 -10.3329 -10.3797 -10.4226 -10.4620 * logK= -10.225100 deltaH= -6.727900 kJ SbI3 type= iodide formula= mole vol.= 0.0000 cc mole wt.= 502.4632 g 4 species in reaction 3.000 H+ 1.000 Sb(OH)3 3.000 I- -3.000 H2O -.7559 -.6422 -.5380 -.4240 -.3204 -.2258 -.1392 -.0595 * logK= -0.538000 deltaH= 13.589600 kJ SbO2 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 153.7488 g 4 species in reaction 1.000 Sb(OH)6- 1.000 H+ -.250 O2(aq) -3.500 H2O -4.0419 -5.2225 -6.3041 -7.4880 -8.5637 -9.5453 -10.4448 -11.2719 * logK= -6.304100 deltaH= -141.084693 kJ ScAsO4 type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 183.8752 g 2 species in reaction 1.000 Sc+++ 1.000 AsO4--- -26.7000 -26.7000 -26.7000 -26.7000 -26.7000 -26.7000 -26.7000 -26.7000 * logK= -26.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Scheelite type= tungstate formula= CaWO4 mole vol.= 0.0000 cc mole wt.= 287.9276 g 2 species in reaction 1.000 WO4-- 1.000 Ca++ -8.2390 -8.4900 -8.7200 -8.9717 -9.2005 -9.4092 -9.6005 -9.7763 * logK= -8.720000 deltaH= -30.000000 kJ Schoepite type= oxide and hydroxide formula= UO3:2H2O mole vol.= 0.0000 cc mole wt.= 322.0576 g 3 species in reaction -2.000 H+ 1.000 UO2++ 3.000 H2O 6.7923 6.3757 5.9940 5.5762 5.1966 4.8501 4.5327 4.2408 * logK= 5.994000 deltaH= -49.790000 kJ ScOOH type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 77.9627 g 3 species in reaction 1.000 Sc+++ -3.000 H+ 2.000 H2O 12.2910 12.2910 12.2910 12.2910 12.2910 12.2910 12.2910 12.2910 * logK= 12.291000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Se metal (am) type= elemental formula= Se mole vol.= 0.0000 cc mole wt.= 78.9600 g 4 species in reaction 1.000 HSe- 1.000 H+ .500 O2(aq) -1.000 H2O -54.8486 -52.3965 -50.1499 -47.6908 -45.4565 -43.4175 -41.5493 -39.8313 * logK= -50.149900 deltaH= 293.047786 kJ Se metal (hex,blk) type= elemental formula= Se mole vol.= 0.0000 cc mole wt.= 78.9600 g 4 species in reaction 1.000 HSe- 1.000 H+ .500 O2(aq) -1.000 H2O -55.5276 -53.0335 -50.7484 -48.2471 -45.9745 -43.9006 -42.0004 -40.2530 * logK= -50.748400 deltaH= 298.069386 kJ Senarmontite type= oxide and hydroxide formula= Sb2O3 mole vol.= 0.0000 cc mole wt.= 291.4982 g 2 species in reaction 2.000 Sb(OH)3 -3.000 H2O -11.9314 -11.6750 -11.4400 -11.1828 -10.9491 -10.7359 -10.5405 -10.3609 * logK= -11.440000 deltaH= 30.647800 kJ SeO2 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 110.9588 g 3 species in reaction 1.000 H+ 1.000 HSeO3- -1.000 H2O .1021 .1139 .1246 .1364 .1470 .1568 .1657 .1740 * logK= 0.124600 deltaH= 1.401600 kJ SeO3 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 126.9582 g 3 species in reaction 2.000 H+ 1.000 SeO4-- -1.000 H2O 23.3910 22.1662 21.0440 19.8157 18.6996 17.6812 16.7480 15.8899 * logK= 21.044000 deltaH= -146.377200 kJ Sepiolite type= sheet silicate formula= Mg2Si3O7.5(OH):3H2O mole vol.= 0.0000 cc mole wt.= 323.9289 g 4 species in reaction -4.000 H+ 3.000 H4SiO4 -.500 H2O 2.000 Mg++ 17.5893 16.6346 15.7600 14.8026 13.9328 13.1389 12.4116 11.7428 * logK= 15.760000 deltaH= -114.089300 kJ Sepiolite (A) type= sheet silicate formula= Mg2Si3O7.5(OH):3H2O mole vol.= 0.0000 cc mole wt.= 323.9289 g 4 species in reaction -4.000 H+ 3.000 H4SiO4 -.500 H2O 2.000 Mg++ 18.7800 18.7800 18.7800 18.7800 18.7800 18.7800 18.7800 18.7800 * logK= 18.780000 deltaH= 0.000000 kJ Siderite type= carbonate formula= FeCO3 mole vol.= 0.0000 cc mole wt.= 115.8562 g 2 species in reaction 1.000 Fe++ 1.000 CO3-- -10.4730 -10.5340 -10.5900 -10.6513 -10.7069 -10.7577 -10.8042 -10.8470 * logK= -10.590000 deltaH= -7.300000 kJ SiO2 (am,gel) type= oxide and hydroxide formula= SiO2 mole vol.= 0.0000 cc mole wt.= 60.0843 g 2 species in reaction 1.000 H4SiO4 -2.000 H2O -2.9345 -2.8173 -2.7100 -2.5925 -2.4858 -2.3884 -2.2991 -2.2170 * logK= -2.710000 deltaH= 14.000000 kJ SiO2 (am,ppt) type= oxide and hydroxide formula= SiO2 mole vol.= 0.0000 cc mole wt.= 60.0843 g 2 species in reaction 1.000 H4SiO4 -2.000 H2O -2.9829 -2.8561 -2.7400 -2.6129 -2.4974 -2.3919 -2.2954 -2.2066 * logK= -2.740000 deltaH= 15.150000 kJ Sm(OH)3 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 201.3819 g 3 species in reaction -3.000 H+ 1.000 Sm+++ 3.000 H2O 16.3900 16.3900 16.3900 16.3900 16.3900 16.3900 16.3900 16.3900 * logK= 16.390000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sm2(CO3)3 type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 480.7476 g 2 species in reaction 2.000 Sm+++ 3.000 CO3-- -32.5000 -32.5000 -32.5000 -32.5000 -32.5000 -32.5000 -32.5000 -32.5000 * logK= -32.500000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SmAsO4 type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 289.2792 g 2 species in reaction 1.000 Sm+++ 1.000 AsO4--- -22.7000 -22.7000 -22.7000 -22.7000 -22.7000 -22.7000 -22.7000 -22.7000 * logK= -22.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SmF3 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 207.3552 g 2 species in reaction 1.000 Sm+++ 3.000 F- -19.1900 -19.1900 -19.1900 -19.1900 -19.1900 -19.1900 -19.1900 -19.1900 * logK= -19.190000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Smithsonite type= carbonate formula= ZnCO3 mole vol.= 0.0000 cc mole wt.= 125.3791 g 2 species in reaction 1.000 Zn++ 1.000 CO3-- -10.8391 -10.8709 -10.9000 -10.9319 -10.9609 -10.9873 -11.0115 -11.0338 * logK= -10.900000 deltaH= -3.800000 kJ SmPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 245.3314 g 2 species in reaction 1.000 Sm+++ 1.000 PO4--- -26.1900 -26.1900 -26.1900 -26.1900 -26.1900 -26.1900 -26.1900 -26.1900 * logK= -26.190000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sn metal (wht) type= elemental formula= Sn mole vol.= 0.0000 cc mole wt.= 118.6900 g 3 species in reaction 1.000 Sn(OH)2 -.500 O2(aq) -1.000 H2O 45.2377 42.8766 40.7134 38.3456 36.1942 34.2309 32.4321 30.7779 * logK= 40.713400 deltaH= -282.169386 kJ Sn(OH)2(s) type= oxide and hydroxide formula= Sn(OH)2 mole vol.= 0.0000 cc mole wt.= 152.7046 g 1 species in reaction 1.000 Sn(OH)2 -4.9000 -4.9000 -4.9000 -4.9000 -4.9000 -4.9000 -4.9000 -4.9000 * logK= -4.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Sn(OH)4 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 186.7192 g 3 species in reaction 2.000 H+ 1.000 Sn(OH)6-- -2.000 H2O -22.2808 -22.2808 -22.2808 -22.2808 -22.2808 -22.2808 -22.2808 -22.2808 * logK= -22.280800 deltaH= 0.000000 kJ Sn(SO4)2 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 310.8132 g 4 species in reaction 6.000 H+ 1.000 Sn(OH)6-- -6.000 H2O 2.000 SO4-- -15.2123 -15.2123 -15.2123 -15.2123 -15.2123 -15.2123 -15.2123 -15.2123 * logK= -15.212300 deltaH= 0.000000 kJ SnBr2 type= bromide formula= mole vol.= 0.0000 cc mole wt.= 278.4980 g 4 species in reaction 1.000 Sn(OH)2 2.000 Br- 2.000 H+ -2.000 H2O -9.5443 -9.5443 -9.5443 -9.5443 -9.5443 -9.5443 -9.5443 -9.5443 * logK= -9.544300 deltaH= 0.000000 kJ SnBr4 type= bromide formula= mole vol.= 0.0000 cc mole wt.= 438.3060 g 4 species in reaction 4.000 Br- 6.000 H+ 1.000 Sn(OH)6-- -6.000 H2O -28.8468 -28.8468 -28.8468 -28.8468 -28.8468 -28.8468 -28.8468 -28.8468 * logK= -28.846800 deltaH= 0.000000 kJ SnCl2 type= chloride formula= mole vol.= 0.0000 cc mole wt.= 189.5960 g 4 species in reaction 1.000 Sn(OH)2 2.000 Cl- 2.000 H+ -2.000 H2O -9.2752 -9.2752 -9.2752 -9.2752 -9.2752 -9.2752 -9.2752 -9.2752 * logK= -9.275200 deltaH= 0.000000 kJ SnO type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 134.6894 g 2 species in reaction 1.000 Sn(OH)2 -1.000 H2O -5.3000 -5.3000 -5.3000 -5.3000 -5.3000 -5.3000 -5.3000 -5.3000 * logK= -5.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SnO2 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 150.6888 g 3 species in reaction 2.000 H+ 1.000 Sn(OH)6-- -4.000 H2O -28.9749 -28.9749 -28.9749 -28.9749 -28.9749 -28.9749 -28.9749 -28.9749 * logK= -28.974900 deltaH= 0.000000 kJ SnS type= sulfide formula= mole vol.= 0.0000 cc mole wt.= 150.7540 g 4 species in reaction 1.000 Sn(OH)2 1.000 H+ 1.000 HS- -2.000 H2O -19.1100 -19.1100 -19.1100 -19.1100 -19.1100 -19.1100 -19.1100 -19.1100 * logK= -19.110000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SnS2 type= sulfide formula= mole vol.= 0.0000 cc mole wt.= 182.8180 g 4 species in reaction 4.000 H+ 1.000 Sn(OH)6-- 2.000 HS- -6.000 H2O -57.4538 -57.4538 -57.4538 -57.4538 -57.4538 -57.4538 -57.4538 -57.4538 * logK= -57.453800 deltaH= 0.000000 kJ SnSe type= selenide formula= mole vol.= 0.0000 cc mole wt.= 197.6500 g 4 species in reaction 1.000 Sn(OH)2 1.000 H+ 1.000 HSe- -2.000 H2O -30.4940 -30.4940 -30.4940 -30.4940 -30.4940 -30.4940 -30.4940 -30.4940 * logK= -30.494000 deltaH= 0.000000 kJ SnSe2 type= selenide formula= mole vol.= 0.0000 cc mole wt.= 276.6100 g 4 species in reaction 4.000 H+ 2.000 HSe- 1.000 Sn(OH)6-- -6.000 H2O -65.1189 -65.1189 -65.1189 -65.1189 -65.1189 -65.1189 -65.1189 -65.1189 * logK= -65.118900 deltaH= 0.000000 kJ SnSO4 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 214.7516 g 4 species in reaction 1.000 Sn(OH)2 2.000 H+ -2.000 H2O 1.000 SO4-- -56.9747 -56.9747 -56.9747 -56.9747 -56.9747 -56.9747 -56.9747 -56.9747 * logK= -56.974700 deltaH= 0.000000 kJ Spharelite type= sulfide formula= ZnS mole vol.= 0.0000 cc mole wt.= 97.4339 g 3 species in reaction 1.000 Zn++ -1.000 H+ 1.000 HS- -11.3010 -11.0500 -10.8200 -10.5683 -10.3395 -10.1308 -9.9395 -9.7637 * logK= -10.820000 deltaH= 30.000000 kJ Spinel type= multiple oxide formula= MgAl2O4 mole vol.= 0.0000 cc mole wt.= 142.2726 g 4 species in reaction -8.000 H+ 2.000 Al+++ 4.000 H2O 1.000 Mg++ 43.0690 39.8222 36.8476 33.5916 30.6332 27.9335 25.4599 23.1852 * logK= 36.847600 deltaH= -388.012200 kJ Sr-Oxalate type= oxalate formula= Sr[(COO)2] mole vol.= 0.0000 cc mole wt.= 175.6396 g 2 species in reaction 1.000 Sr++ 1.000 Oxalate-- -7.2600 -7.2600 -7.2600 -7.2600 -7.2600 -7.2600 -7.2600 -7.2600 * logK= -7.260000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SrCrO4 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 203.6136 g 2 species in reaction 1.000 CrO4-- 1.000 Sr++ -4.4877 -4.5724 -4.6500 -4.7350 -4.8122 -4.8826 -4.9472 -5.0065 * logK= -4.650000 deltaH= -10.125300 kJ SrF2 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 125.6168 g 2 species in reaction 1.000 Sr++ 2.000 F- -8.6441 -8.6107 -8.5800 -8.5464 -8.5159 -8.4881 -8.4626 -8.4392 * logK= -8.580000 deltaH= 4.000000 kJ SrHPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 183.5993 g 3 species in reaction 1.000 H+ 1.000 PO4--- 1.000 Sr++ -19.2950 -19.2950 -19.2950 -19.2950 -19.2950 -19.2950 -19.2950 -19.2950 * logK= -19.295000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SrS type= sulfide formula= mole vol.= 0.0000 cc mole wt.= 119.6840 g 3 species in reaction -1.000 H+ 1.000 Sr++ 1.000 HS- 13.8800 13.8800 13.8800 13.8800 13.8800 13.8800 13.8800 13.8800 * logK= 13.880000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SrSeO3 type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 214.5782 g 3 species in reaction -1.000 H+ 1.000 Sr++ 1.000 HSeO3- 2.3000 2.3000 2.3000 2.3000 2.3000 2.3000 2.3000 2.3000 * logK= 2.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C SrSeO4 type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 230.5776 g 2 species in reaction 1.000 Sr++ 1.000 SeO4-- -4.4064 -4.4031 -4.4000 -4.3966 -4.3936 -4.3908 -4.3883 -4.3859 * logK= -4.400000 deltaH= 0.400000 kJ Stibnite type= sulfide formula= Sb2S3 mole vol.= 0.0000 cc mole wt.= 339.6920 g 4 species in reaction 3.000 H+ 2.000 Sb(OH)3 3.000 HS- -6.000 H2O -55.1705 -52.7122 -50.4600 -47.9947 -45.7548 -43.7108 -41.8379 -40.1157 * logK= -50.460000 deltaH= 293.780000 kJ Strengite type= phosphate formula= FePO4:2H2O mole vol.= 0.0000 cc mole wt.= 186.8488 g 3 species in reaction 1.000 Fe+++ 1.000 PO4--- 2.000 H2O -26.2499 -26.3282 -26.4000 -26.4785 -26.5499 -26.6150 -26.6747 -26.7296 * logK= -26.400000 deltaH= -9.360100 kJ Strontianite type= carbonate formula= SrCO3 mole vol.= 0.0000 cc mole wt.= 147.6292 g 2 species in reaction 1.000 Sr++ 1.000 CO3-- -9.2540 -9.2623 -9.2700 -9.2784 -9.2860 -9.2930 -9.2993 -9.3052 * logK= -9.270000 deltaH= -1.000000 kJ Sulfur type= elemental formula= S mole vol.= 0.0000 cc mole wt.= 32.0640 g 4 species in reaction 1.000 H+ .500 O2(aq) 1.000 HS- -1.000 H2O -49.4478 -47.2231 -45.1849 -42.9538 -40.9268 -39.0769 -37.3820 -35.8233 * logK= -45.184900 deltaH= 265.869386 kJ Tb(OH)3 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 209.9469 g 3 species in reaction -3.000 H+ 1.000 Tb+++ 3.000 H2O 15.6900 15.6900 15.6900 15.6900 15.6900 15.6900 15.6900 15.6900 * logK= 15.690000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TbAsO4 type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 297.8442 g 2 species in reaction 1.000 AsO4--- 1.000 Tb+++ -23.1000 -23.1000 -23.1000 -23.1000 -23.1000 -23.1000 -23.1000 -23.1000 * logK= -23.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TbF3 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 215.9202 g 2 species in reaction 1.000 Tb+++ 3.000 F- -17.9900 -17.9900 -17.9900 -17.9900 -17.9900 -17.9900 -17.9900 -17.9900 * logK= -17.990000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TbPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 253.8964 g 2 species in reaction 1.000 PO4--- 1.000 Tb+++ -25.3900 -25.3900 -25.3900 -25.3900 -25.3900 -25.3900 -25.3900 -25.3900 * logK= -25.390000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tenorite(am) type= oxide and hydroxide formula= CuO mole vol.= 0.0000 cc mole wt.= 79.5454 g 3 species in reaction 1.000 Cu++ -2.000 H+ 1.000 H2O 9.5301 8.9873 8.4900 7.9457 7.4511 6.9998 6.5862 6.2060 * logK= 8.490000 deltaH= -64.867000 kJ Tenorite(c) type= oxide and hydroxide formula= CuO mole vol.= 0.0000 cc mole wt.= 79.5454 g 3 species in reaction 1.000 Cu++ -2.000 H+ 1.000 H2O 8.6806 8.1375 7.6400 7.0954 6.6006 6.1490 5.7353 5.3548 * logK= 7.640000 deltaH= -64.900000 kJ Th(OH)4 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 300.0692 g 3 species in reaction 1.000 Th++++ -4.000 H+ 4.000 H2O 5.2900 5.2900 5.2900 5.2900 5.2900 5.2900 5.2900 5.2900 * logK= 5.290000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Th-(Oxalate)2:6H2O type= oxalate formula= Th[(COO)2]2:6H2O mole vol.= 0.0000 cc mole wt.= 516.1704 g 3 species in reaction 1.000 Th++++ 2.000 Oxalate-- 6.000 H2O -23.9300 -23.9300 -23.9300 -23.9300 -23.9300 -23.9300 -23.9300 -23.9300 * logK= -23.930000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Thenardite type= sulfate formula= Na2SO4 mole vol.= 0.0000 cc mole wt.= 142.0412 g 2 species in reaction 2.000 Na+ 1.000 SO4-- .4679 .3916 .3217 .2452 .1756 .1122 .0540 5e-4 * logK= 0.321700 deltaH= -9.121000 kJ Thermonatrite type= carbonate formula= Na2CO3:H2O mole vol.= 0.0000 cc mole wt.= 124.0040 g 3 species in reaction 2.000 Na+ 1.000 CO3-- 1.000 H2O .8050 .7173 .6370 .5491 .4692 .3962 .3294 .2680 * logK= 0.637000 deltaH= -10.479900 kJ ThO2 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 264.0388 g 3 species in reaction 1.000 Th++++ -4.000 H+ 2.000 H2O -2.7100 -2.7100 -2.7100 -2.7100 -2.7100 -2.7100 -2.7100 -2.7100 * logK= -2.710000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Tl metal type= elemental formula= Tl mole vol.= 0.0000 cc mole wt.= 204.3700 g 4 species in reaction -1.000 H+ 1.000 Tl+ -.250 O2(aq) .500 H2O 29.3724 28.2367 27.1962 26.0573 25.0224 24.0781 23.2129 22.4172 * logK= 27.196200 deltaH= -135.724693 kJ Tl(OH)3(s) type= oxide and hydroxide formula= Tl(OH)3 mole vol.= 0.0000 cc mole wt.= 255.3919 g 3 species in reaction 1.000 Tl(OH)3 0.000 H+ 0.000 H2O -5.4410 -5.4410 -5.4410 -5.4410 -5.4410 -5.4410 -5.4410 -5.4410 * logK= -5.441000 deltaH= 0.000000 kJ Tl2CO3 type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 468.7492 g 2 species in reaction 2.000 Tl+ 1.000 CO3-- -4.4057 -4.1088 -3.8367 -3.5389 -3.2683 -3.0214 -2.7951 -2.5871 * logK= -3.836700 deltaH= 35.490000 kJ Tl2CrO4 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 524.7336 g 2 species in reaction 1.000 CrO4-- 2.000 Tl+ -13.2008 -12.5794 -12.0100 -11.3868 -10.8205 -10.3037 -9.8303 -9.3949 * logK= -12.010000 deltaH= 74.270000 kJ Tl2MoO4 type= molybdate formula= mole vol.= 0.0000 cc mole wt.= 568.6776 g 2 species in reaction 2.000 Tl+ 1.000 MoO4-- -7.9887 -7.9887 -7.9887 -7.9887 -7.9887 -7.9887 -7.9887 -7.9887 * logK= -7.988700 deltaH= 0.000000 kJ Tl2O type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 424.7394 g 3 species in reaction 2.000 Tl+ -2.000 H+ 1.000 H2O 28.6373 27.8306 27.0915 26.2825 25.5474 24.8766 24.2620 23.6968 * logK= 27.091500 deltaH= -96.410000 kJ Tl2S type= sulfide formula= mole vol.= 0.0000 cc mole wt.= 440.8040 g 3 species in reaction 2.000 Tl+ -1.000 H+ 1.000 HS- -8.6574 -7.8916 -7.1900 -6.4220 -5.7242 -5.0874 -4.5040 -3.9675 * logK= -7.190000 deltaH= 91.520000 kJ Tl2Se type= selenide formula= mole vol.= 0.0000 cc mole wt.= 487.7000 g 3 species in reaction 2.000 Tl+ 1.000 HSe- -1.000 H+ -19.4728 -18.7564 -18.1000 -17.3815 -16.7287 -16.1330 -15.5872 -15.0852 * logK= -18.100000 deltaH= 85.620000 kJ Tl2SeO4 type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 551.6976 g 2 species in reaction 2.000 Tl+ 1.000 SeO4-- -4.7895 -4.4296 -4.1000 -3.7392 -3.4113 -3.1121 -2.8380 -2.5859 * logK= -4.100000 deltaH= 43.000000 kJ Tl2SO4 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 504.8016 g 2 species in reaction 2.000 Tl+ 1.000 SO4-- -4.3188 -4.0412 -3.7868 -3.5084 -3.2554 -3.0245 -2.8130 -2.6185 * logK= -3.786800 deltaH= 33.179900 kJ TlBr type= bromide formula= mole vol.= 0.0000 cc mole wt.= 284.2740 g 2 species in reaction 1.000 Br- 1.000 Tl+ -6.3058 -5.8540 -5.4400 -4.9869 -4.5751 -4.1994 -3.8552 -3.5386 * logK= -5.440000 deltaH= 54.000000 kJ TlCl type= chloride formula= mole vol.= 0.0000 cc mole wt.= 239.8230 g 2 species in reaction 1.000 Cl- 1.000 Tl+ -4.3974 -4.0543 -3.7400 -3.3959 -3.0833 -2.7981 -2.5367 -2.2963 * logK= -3.740000 deltaH= 41.000000 kJ TlI type= iodide formula= mole vol.= 0.0000 cc mole wt.= 331.2744 g 2 species in reaction 1.000 Tl+ 1.000 I- -8.4325 -7.8050 -7.2300 -6.6006 -6.0288 -5.5070 -5.0288 -4.5892 * logK= -7.230000 deltaH= 75.000000 kJ TlNO3 type= nitrate formula= mole vol.= 0.0000 cc mole wt.= 266.3749 g 2 species in reaction 1.000 Tl+ 1.000 NO3- -2.2932 -1.9381 -1.6127 -1.2566 -.9330 -.6377 -.3671 -.1183 * logK= -1.612700 deltaH= 42.440000 kJ TlOH type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 221.3773 g 3 species in reaction 1.000 Tl+ -1.000 H+ 1.000 H2O 13.5851 13.2373 12.9186 12.5698 12.2528 11.9636 11.6986 11.4549 * logK= 12.918600 deltaH= -41.570000 kJ TlSCN type= thiocyanate formula= mole vol.= 0.0000 cc mole wt.= 262.4517 g 2 species in reaction 1.000 Tl+ 1.000 SCN- -4.8282 -4.2760 -3.7700 -3.2162 -2.7129 -2.2537 -1.8330 -1.4461 * logK= -3.770000 deltaH= 66.000000 kJ TmAsO4 type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 307.8532 g 2 species in reaction 1.000 Tm+++ 1.000 AsO4--- -23.1000 -23.1000 -23.1000 -23.1000 -23.1000 -23.1000 -23.1000 -23.1000 * logK= -23.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TmF3 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 225.9292 g 2 species in reaction 1.000 Tm+++ 3.000 F- -17.0900 -17.0900 -17.0900 -17.0900 -17.0900 -17.0900 -17.0900 -17.0900 * logK= -17.090000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C TmPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 263.9054 g 2 species in reaction 1.000 Tm+++ 1.000 PO4--- -25.0000 -25.0000 -25.0000 -25.0000 -25.0000 -25.0000 -25.0000 -25.0000 * logK= -25.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Torbernite type= phosphate formula= Cu(UO2)2(PO4)2 mole vol.= 0.0000 cc mole wt.= 793.5444 g 3 species in reaction 1.000 Cu++ 2.000 UO2++ 2.000 PO4--- -44.2123 -44.7690 -45.2790 -45.8373 -46.3445 -46.8073 -47.2314 -47.6214 * logK= -45.279000 deltaH= -66.525600 kJ Tsumebite type= phosphate formula= Pb2Cu(PO4)(OH)3:3H2O mole vol.= 0.0000 cc mole wt.= 677.9647 g 5 species in reaction 1.000 Cu++ -3.000 H+ 1.000 PO4--- 2.000 Pb++ 6.000 H2O -9.7900 -9.7900 -9.7900 -9.7900 -9.7900 -9.7900 -9.7900 -9.7900 * logK= -9.790000 deltaH= 0.000000 kJ Tyuyamunite type= vanadate formula= Ca(UO2)2(VO4)2 mole vol.= 0.0000 cc mole wt.= 810.0138 g 4 species in reaction -2.000 H+ 2.000 UO2++ 1.000 Ca++ 2.000 HVO4-- -25.7685 -26.0041 -26.2200 -26.4563 -26.6710 -26.8669 -27.0465 -27.2115 * logK= -26.220000 deltaH= -28.160000 kJ U(HPO4)2:4H2O type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 502.0484 g 4 species in reaction 1.000 U++++ 2.000 H+ 2.000 PO4--- 4.000 H2O -51.8416 -51.7072 -51.5840 -51.4492 -51.3267 -51.2149 -51.1125 -51.0183 * logK= -51.584000 deltaH= 16.066600 kJ U(OH)2SO4 type= formula= mole vol.= 0.0000 cc mole wt.= 368.1052 g 4 species in reaction 1.000 U++++ -2.000 H+ 2.000 H2O 1.000 SO4-- 3.1700 3.1700 3.1700 3.1700 3.1700 3.1700 3.1700 3.1700 * logK= 3.170000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C U3O8 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 842.0822 g 4 species in reaction -12.000 H+ 3.000 U++++ 1.000 O2(aq) 6.000 H2O -66.2617 -65.6015 -64.9966 -64.3345 -63.7330 -63.1840 -62.6810 -62.2185 * logK= -64.996600 deltaH= 78.898872 kJ U3Sb4 type= antimonide formula= mole vol.= 0.0000 cc mole wt.= 1201.0870 g 4 species in reaction 3.000 U++++ -12.000 H+ -6.000 O2(aq) 4.000 Sb(OH)3 738.9652 702.3805 668.8634 632.1750 598.8407 568.4206 540.5487 514.9175 * logK= 668.863400 deltaH= -4372.072632 kJ U4O9 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 1096.1106 g 4 species in reaction -16.000 H+ 4.000 U++++ .500 O2(aq) 8.000 H2O -43.7397 -44.9505 -46.0598 -47.2741 -48.3773 -49.3841 -50.3066 -51.1549 * logK= -46.059800 deltaH= -144.700714 kJ UF4 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 314.0226 g 2 species in reaction 1.000 U++++ 4.000 F- -28.2692 -28.9309 -29.5371 -30.2007 -30.8036 -31.3538 -31.8579 -32.3215 * logK= -29.537100 deltaH= -79.077600 kJ UF4:2.5H2O type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 359.0606 g 3 species in reaction 1.000 U++++ 4.000 F- 2.500 H2O -33.1079 -32.9044 -32.7179 -32.5138 -32.3283 -32.1591 -32.0040 -31.8614 * logK= -32.717900 deltaH= 24.325000 kJ UO2 (am) type= oxide and hydroxide formula= UO2 mole vol.= 0.0000 cc mole wt.= 270.0278 g 3 species in reaction -4.000 H+ 1.000 U++++ 2.000 H2O .2597 -.6587 -1.5000 -2.4209 -3.2577 -4.0213 -4.7209 -5.3643 * logK= -1.500000 deltaH= -109.746300 kJ UO2(NO3)2 type= nitrate formula= mole vol.= 0.0000 cc mole wt.= 394.0376 g 2 species in reaction 2.000 NO3- 1.000 UO2++ 13.4848 12.7870 12.1476 11.4477 10.8119 10.2316 9.6999 9.2110 * logK= 12.147600 deltaH= -83.399900 kJ UO2(NO3)2:2H2O type= nitrate formula= mole vol.= 0.0000 cc mole wt.= 430.0680 g 3 species in reaction 2.000 NO3- 1.000 UO2++ 2.000 H2O 5.2575 5.0454 4.8510 4.6382 4.4449 4.2685 4.1069 3.9582 * logK= 4.851000 deltaH= -25.355000 kJ UO2(NO3)2:3H2O type= nitrate formula= mole vol.= 0.0000 cc mole wt.= 448.0832 g 3 species in reaction 2.000 NO3- 1.000 UO2++ 3.000 H2O 3.5369 3.4602 3.3900 3.3131 3.2433 3.1796 3.1212 3.0675 * logK= 3.390000 deltaH= -9.159900 kJ UO2(NO3)2:6H2O type= nitrate formula= mole vol.= 0.0000 cc mole wt.= 502.1288 g 3 species in reaction 2.000 NO3- 1.000 UO2++ 6.000 H2O 1.7126 1.8868 2.0464 2.2211 2.3799 2.5247 2.6574 2.7795 * logK= 2.046400 deltaH= 20.820100 kJ UO2(OH)2 (beta) type= oxide and hydroxide formula= UO2(OH)2 mole vol.= 0.0000 cc mole wt.= 304.0424 g 3 species in reaction -2.000 H+ 1.000 UO2++ 2.000 H2O 6.5217 6.0467 5.6116 5.1353 4.7025 4.3076 3.9458 3.6130 * logK= 5.611600 deltaH= -56.759900 kJ UO2HPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 366.0071 g 3 species in reaction 1.000 H+ 1.000 UO2++ 1.000 PO4--- -24.2250 -24.2250 -24.2250 -24.2250 -24.2250 -24.2250 -24.2250 -24.2250 * logK= -24.225000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO2SeO4:4H2O type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 485.0462 g 3 species in reaction 1.000 UO2++ 1.000 SeO4-- 4.000 H2O -2.2500 -2.2500 -2.2500 -2.2500 -2.2500 -2.2500 -2.2500 -2.2500 * logK= -2.250000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C UO3 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 286.0272 g 3 species in reaction -2.000 H+ 1.000 UO2++ 1.000 H2O 8.9992 8.3212 7.7000 7.0200 6.4022 5.8384 5.3219 4.8468 * logK= 7.700000 deltaH= -81.029900 kJ Uramphite type= phosphate formula= (NH4)2(UO2)2(PO4)2 mole vol.= 0.0000 cc mole wt.= 766.0750 g 3 species in reaction 2.000 UO2++ 2.000 PO4--- 2.000 NH4+ -52.3997 -52.0601 -51.7490 -51.4084 -51.0990 -50.8166 -50.5579 -50.3200 * logK= -51.749000 deltaH= 40.584800 kJ Uraninite type= oxide and hydroxide formula= UO2 mole vol.= 0.0000 cc mole wt.= 270.0278 g 3 species in reaction -4.000 H+ 1.000 U++++ 2.000 H2O -3.4209 -4.0724 -4.6693 -5.3227 -5.9163 -6.4580 -6.9544 -7.4108 * logK= -4.669300 deltaH= -77.860000 kJ Uranocircite type= phosphate formula= Ba(UO2)2(PO4)2 mole vol.= 0.0000 cc mole wt.= 867.3384 g 3 species in reaction 2.000 UO2++ 2.000 PO4--- 1.000 Ba++ -43.9534 -44.3070 -44.6310 -44.9856 -45.3078 -45.6018 -45.8712 -46.1190 * logK= -44.631000 deltaH= -42.258400 kJ USb2 type= antimonide formula= mole vol.= 0.0000 cc mole wt.= 481.5290 g 5 species in reaction -2.000 H+ 1.000 UO2++ -3.000 O2(aq) 2.000 Sb(OH)3 -2.000 H2O 316.6234 301.5900 287.8171 272.7411 259.0433 246.5430 235.0899 224.5575 * logK= 287.817100 deltaH= -1796.576416 kJ V metal type= elemental formula= V mole vol.= 0.0000 cc mole wt.= 50.9415 g 4 species in reaction -3.000 H+ -.750 O2(aq) 1.500 H2O 1.000 V+++ 119.5246 113.8156 108.5853 102.8601 97.6584 92.9114 88.5620 84.5623 * logK= 108.585300 deltaH= -682.254079 kJ V(OH)3 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 101.9634 g 3 species in reaction -3.000 H+ 3.000 H2O 1.000 V+++ 7.5910 7.5910 7.5910 7.5910 7.5910 7.5910 7.5910 7.5910 * logK= 7.591000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C V2O3 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 74.9406 g 3 species in reaction -3.000 H+ 1.500 H2O 1.000 V+++ 6.2229 5.5325 4.9000 4.2076 3.5786 3.0045 2.4785 1.9948 * logK= 4.900000 deltaH= -82.508500 kJ V2O4 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 82.9403 g 3 species in reaction -2.000 H+ 1.000 VO++ 1.000 H2O 5.2139 4.7213 4.2700 3.7760 3.3272 2.9176 2.5423 2.1972 * logK= 4.270000 deltaH= -58.868900 kJ V2O5 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 181.8800 g 3 species in reaction 4.000 H+ -3.000 H2O 2.000 HVO4-- -32.7437 -31.8441 -31.0200 -30.1179 -29.2983 -28.5503 -27.8650 -27.2348 * logK= -31.020000 deltaH= 107.500000 kJ V3O5 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 232.8215 g 4 species in reaction -6.000 H+ 3.000 VO++ -.500 O2(aq) 3.000 H2O 50.9791 47.7941 44.8761 41.6820 38.7800 36.1316 33.7051 31.4737 * logK= 44.876100 deltaH= -380.629386 kJ V4O7 type= multiple oxide formula= mole vol.= 0.0000 cc mole wt.= 315.7618 g 4 species in reaction -8.000 H+ 4.000 VO++ -.500 O2(aq) 4.000 H2O 57.3786 53.6461 50.2265 46.4834 43.0824 39.9789 37.1352 34.5202 * logK= 50.226500 deltaH= -446.059486 kJ Valentinite type= oxide and hydroxide formula= Sb2O3 mole vol.= 0.0000 cc mole wt.= 291.4982 g 2 species in reaction 2.000 Sb(OH)3 -3.000 H2O -10.3049 -10.1458 -10.0000 -9.8404 -9.6954 -9.5631 -9.4419 -9.3304 * logK= -10.000000 deltaH= 19.016300 kJ Vaterite type= carbonate formula= CaCO3 mole vol.= 0.0000 cc mole wt.= 100.0892 g 2 species in reaction 1.000 CO3-- 1.000 Ca++ -7.7427 -7.8189 -7.9134 -8.0510 -8.2149 -8.4046 -8.6195 -8.8588 * logK= -7.910000 deltaH= -8.000000 kJ * analytic data = 172.1295 .077993 -3074.688 -71.595 0 0 0 VCl2 type= chloride formula= mole vol.= 0.0000 cc mole wt.= 121.8475 g 5 species in reaction 2.000 Cl- -1.000 H+ -.250 O2(aq) .500 H2O 1.000 V+++ 44.9199 42.5581 40.3944 38.0259 35.8740 33.9102 32.1109 30.4562 * logK= 40.394400 deltaH= -282.244693 kJ VCl3 type= chloride formula= mole vol.= 0.0000 cc mole wt.= 157.3005 g 2 species in reaction 3.000 Cl- 1.000 V+++ 26.3113 24.8090 23.4326 21.9260 20.5571 19.3079 18.1633 17.1108 * logK= 23.432600 deltaH= -179.540000 kJ VF4 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 126.9351 g 4 species in reaction 1.000 VO++ 2.000 H+ -1.000 H2O 4.000 F- 18.1226 16.4565 14.9300 13.2591 11.7410 10.3555 9.0862 7.9189 * logK= 14.930000 deltaH= -199.116600 kJ Vivianite type= phosphate formula= Fe3(PO4)2:8H2O mole vol.= 0.0000 cc mole wt.= 501.6054 g 3 species in reaction 3.000 Fe++ 2.000 PO4--- 8.000 H2O -37.8411 -37.7988 -37.7600 -37.7175 -37.6790 -37.6438 -37.6115 -37.5818 * logK= -37.760000 deltaH= 5.060000 kJ VO type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 66.9409 g 4 species in reaction -3.000 H+ -.250 O2(aq) 1.500 H2O 1.000 V+++ 40.3509 38.2245 36.2763 34.1438 32.2062 30.4381 28.8180 27.3282 * logK= 36.276300 deltaH= -254.125693 kJ VO(OH)2 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 100.9555 g 3 species in reaction 1.000 VO++ -2.000 H+ 2.000 H2O 5.8900 5.8900 5.8900 5.8900 5.8900 5.8900 5.8900 5.8900 * logK= 5.890000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C VO2Cl type= chloride formula= mole vol.= 0.0000 cc mole wt.= 118.3933 g 4 species in reaction 1.000 Cl- 3.000 H+ -2.000 H2O 1.000 HVO4-- -12.4042 -12.7412 -13.0500 -13.3880 -13.6951 -13.9754 -14.2322 -14.4683 * logK= -13.050000 deltaH= -40.280000 kJ VOCl type= chloride formula= mole vol.= 0.0000 cc mole wt.= 102.3939 g 4 species in reaction 1.000 Cl- -2.000 H+ 1.000 H2O 1.000 V+++ 12.8345 11.9567 11.1524 10.2720 9.4722 8.7422 8.0734 7.4584 * logK= 11.152400 deltaH= -104.910000 kJ VOCl2 type= chloride formula= mole vol.= 0.0000 cc mole wt.= 137.8469 g 2 species in reaction 2.000 Cl- 1.000 VO++ 14.6485 13.6631 12.7603 11.7721 10.8743 10.0549 9.3042 8.6138 * logK= 12.760300 deltaH= -117.760000 kJ VOSO4 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 163.0025 g 2 species in reaction 1.000 VO++ 1.000 SO4-- 5.0005 4.2747 3.6097 2.8818 2.2205 1.6170 1.0640 .5555 * logK= 3.609700 deltaH= -86.740100 kJ Witherite type= carbonate formula= BaCO3 mole vol.= 0.0000 cc mole wt.= 197.3492 g 2 species in reaction 1.000 Ba++ 1.000 CO3-- -8.6021 -8.5853 -8.5700 -8.5532 -8.5380 -8.5241 -8.5113 -8.4996 * logK= -8.570000 deltaH= 2.000000 kJ Wurtzite type= sulfide formula= ZnS mole vol.= 0.0000 cc mole wt.= 97.4339 g 3 species in reaction 1.000 Zn++ -1.000 H+ 1.000 HS- -8.9595 -8.7823 -8.6200 -8.4423 -8.2809 -8.1336 -7.9987 -7.8745 * logK= -8.620000 deltaH= 21.171000 kJ Y(OH)3 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 139.9319 g 3 species in reaction 1.000 Y+++ -3.000 H+ 3.000 H2O 17.4900 17.4900 17.4900 17.4900 17.4900 17.4900 17.4900 17.4900 * logK= 17.490000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Y2(CO3)3 x H2O (s) type= carbonate formula= Y2(CO3)3:H2O mole vol.= 0.0000 cc mole wt.= 375.8628 g 3 species in reaction 2.000 Y+++ 3.000 CO3-- 1.000 H2O -33.0000 -33.0000 -33.0000 -33.0000 -33.0000 -33.0000 -33.0000 -33.0000 * logK= -33.000000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YAsO4 type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 227.8292 g 2 species in reaction 1.000 Y+++ 1.000 AsO4--- -22.6000 -22.6000 -22.6000 -22.6000 -22.6000 -22.6000 -22.6000 -22.6000 * logK= -22.600000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Yb(OH)3 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 224.0619 g 3 species in reaction -3.000 H+ 1.000 Yb+++ 3.000 H2O 15.3900 15.3900 15.3900 15.3900 15.3900 15.3900 15.3900 15.3900 * logK= 15.390000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Yb2(CO3)3 (s) type= carbonate formula= Yb2(CO3)3 mole vol.= 0.0000 cc mole wt.= 526.1076 g 2 species in reaction 2.000 Yb+++ 3.000 CO3-- -31.1000 -31.1000 -31.1000 -31.1000 -31.1000 -31.1000 -31.1000 -31.1000 * logK= -31.100000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Yb2-(Oxalate)3 type= oxalate formula= Yb2[(COO)2]3 mole vol.= 0.0000 cc mole wt.= 610.1388 g 2 species in reaction 2.000 Yb+++ 3.000 Oxalate-- -28.9100 -28.9100 -28.9100 -28.9100 -28.9100 -28.9100 -28.9100 -28.9100 * logK= -28.910000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YbAsO4 type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 311.9592 g 2 species in reaction 1.000 AsO4--- 1.000 Yb+++ -22.7000 -22.7000 -22.7000 -22.7000 -22.7000 -22.7000 -22.7000 -22.7000 * logK= -22.700000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YbF3 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 230.0352 g 2 species in reaction 1.000 Yb+++ 3.000 F- -16.2900 -16.2900 -16.2900 -16.2900 -16.2900 -16.2900 -16.2900 -16.2900 * logK= -16.290000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YbF3 x H2O (s) type= fluoride formula= YbF3:0.5H2O mole vol.= 0.0000 cc mole wt.= 239.0428 g 3 species in reaction 1.000 Yb+++ 3.000 F- .500 H2O -16.0000 -16.0000 -16.0000 -16.0000 -16.0000 -16.0000 -16.0000 -16.0000 * logK= -16.000000 deltaH= 0.000000 kJ YbPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 268.0114 g 2 species in reaction 1.000 PO4--- 1.000 Yb+++ -24.9000 -24.9000 -24.9000 -24.9000 -24.9000 -24.9000 -24.9000 -24.9000 * logK= -24.900000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YbPO4 x H2O (s) type= phosphate formula= YbPO4:H2O mole vol.= 0.0000 cc mole wt.= 286.0266 g 3 species in reaction 1.000 PO4--- 1.000 Yb+++ 1.000 H2O -24.1000 -24.1000 -24.1000 -24.1000 -24.1000 -24.1000 -24.1000 -24.1000 * logK= -24.100000 deltaH= 0.000000 kJ YF3 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 145.9052 g 2 species in reaction 1.000 Y+++ 3.000 F- -18.3000 -18.3000 -18.3000 -18.3000 -18.3000 -18.3000 -18.3000 -18.3000 * logK= -18.300000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YF3 x H2O (s) type= fluoride formula= YF3:0.5H2O mole vol.= 0.0000 cc mole wt.= 154.9128 g 3 species in reaction 1.000 Y+++ 3.000 F- .500 H2O -16.9000 -16.9000 -16.9000 -16.9000 -16.9000 -16.9000 -16.9000 -16.9000 * logK= -16.900000 deltaH= 0.000000 kJ YPO4 type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 183.8814 g 2 species in reaction 1.000 Y+++ 1.000 PO4--- -25.0200 -25.0200 -25.0200 -25.0200 -25.0200 -25.0200 -25.0200 -25.0200 * logK= -25.020000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C YPO4 x H2O (s) type= phosphate formula= YPO4:H2O mole vol.= 0.0000 cc mole wt.= 201.8966 g 3 species in reaction 1.000 Y+++ 1.000 PO4--- 1.000 H2O -24.2000 -24.2000 -24.2000 -24.2000 -24.2000 -24.2000 -24.2000 -24.2000 * logK= -24.200000 deltaH= 0.000000 kJ Zincite type= oxide and hydroxide formula= ZnO mole vol.= 0.0000 cc mole wt.= 81.3693 g 3 species in reaction 1.000 Zn++ -2.000 H+ 1.000 H2O 12.6670 11.9170 11.2300 10.4780 9.7947 9.1711 8.5998 8.0744 * logK= 11.230000 deltaH= -89.620000 kJ Zincosite type= sulfate formula= ZnSO4 mole vol.= 0.0000 cc mole wt.= 161.4315 g 2 species in reaction 1.000 Zn++ 1.000 SO4-- 5.2539 4.5628 3.9297 3.2367 2.6070 2.0324 1.5059 1.0217 * logK= 3.929700 deltaH= -82.586000 kJ Zn metal type= elemental formula= Zn mole vol.= 0.0000 cc mole wt.= 65.3699 g 4 species in reaction 1.000 Zn++ -2.000 H+ -.500 O2(aq) 1.000 H2O 75.8124 72.1677 68.8286 65.1736 61.8527 58.8222 56.0455 53.4920 * logK= 68.828600 deltaH= -435.559386 kJ Zn(BO2)2 type= borate formula= mole vol.= 0.0000 cc mole wt.= 150.9875 g 4 species in reaction 1.000 Zn++ 2.000 H3BO3 -2.000 H+ -2.000 H2O 8.2900 8.2900 8.2900 8.2900 8.2900 8.2900 8.2900 8.2900 * logK= 8.290000 deltaH= 0.000000 kJ Zn(NO3)2:6H2O type= nitrate formula= mole vol.= 0.0000 cc mole wt.= 297.4709 g 3 species in reaction 1.000 Zn++ 2.000 NO3- 6.000 H2O 2.9213 3.1269 3.3153 3.5215 3.7088 3.8798 4.0364 4.1804 * logK= 3.315300 deltaH= 24.569800 kJ Zn(OH)2 (am) type= oxide and hydroxide formula= Zn(OH)2 mole vol.= 0.0000 cc mole wt.= 99.3845 g 3 species in reaction 1.000 Zn++ -2.000 H+ 2.000 H2O 13.8468 13.1304 12.4740 11.7555 11.1027 10.5070 9.9612 9.4592 * logK= 12.474000 deltaH= -85.620000 kJ Zn(OH)2 (beta) type= oxide and hydroxide formula= Zn(OH)2 mole vol.= 0.0000 cc mole wt.= 99.3845 g 3 species in reaction 1.000 Zn++ -2.000 H+ 2.000 H2O 13.0871 12.3914 11.7540 11.0563 10.4224 9.8440 9.3139 8.8265 * logK= 11.754000 deltaH= -83.140000 kJ Zn(OH)2 (delta) type= oxide and hydroxide formula= Zn(OH)2 mole vol.= 0.0000 cc mole wt.= 99.3845 g 3 species in reaction 1.000 Zn++ -2.000 H+ 2.000 H2O 11.8440 11.8440 11.8440 11.8440 11.8440 11.8440 11.8440 11.8440 * logK= 11.844000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn(OH)2 (epsilon) type= oxide and hydroxide formula= Zn(OH)2 mole vol.= 0.0000 cc mole wt.= 99.3845 g 3 species in reaction 1.000 Zn++ -2.000 H+ 2.000 H2O 12.7946 12.1367 11.5340 10.8743 10.2748 9.7278 9.2266 8.7657 * logK= 11.534000 deltaH= -78.620000 kJ Zn(OH)2 (gamma) type= oxide and hydroxide formula= Zn(OH)2 mole vol.= 0.0000 cc mole wt.= 99.3845 g 3 species in reaction 1.000 Zn++ -2.000 H+ 2.000 H2O 13.0456 12.3611 11.7340 11.0476 10.4239 9.8547 9.3333 8.8537 * logK= 11.734000 deltaH= -81.800000 kJ Zn-Al LDH type= formula= Zn2Al(OH)6(CO3)0.5:H2O mole vol.= 0.0000 cc mole wt.= 289.7697 g 5 species in reaction 2.000 Zn++ -6.000 H+ 1.000 Al+++ .500 CO3-- 6.000 H2O 19.8300 19.8300 19.8300 19.8300 19.8300 19.8300 19.8300 19.8300 * logK= 19.830000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn2(OH)2SO4 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 260.8160 g 4 species in reaction 2.000 Zn++ -2.000 H+ 2.000 H2O 1.000 SO4-- 7.5000 7.5000 7.5000 7.5000 7.5000 7.5000 7.5000 7.5000 * logK= 7.500000 deltaH= 0.000000 kJ Zn2(OH)3Cl type= chloride formula= mole vol.= 0.0000 cc mole wt.= 217.2147 g 4 species in reaction 2.000 Zn++ 1.000 Cl- -3.000 H+ 3.000 H2O 15.1910 15.1910 15.1910 15.1910 15.1910 15.1910 15.1910 15.1910 * logK= 15.191000 deltaH= 0.000000 kJ Zn2Fe(CN)6 type= cyanide formula= mole vol.= 0.0000 cc mole wt.= 342.6930 g 3 species in reaction 2.000 Zn++ 1.000 Fe++ 6.000 CN- -51.0800 -51.0800 -51.0800 -51.0800 -51.0800 -51.0800 -51.0800 -51.0800 * logK= -51.080000 deltaH= 0.000000 kJ Zn3(PO4)2:4H2O type= phosphate formula= mole vol.= 0.0000 cc mole wt.= 458.1133 g 3 species in reaction 3.000 Zn++ 2.000 PO4--- 4.000 H2O -35.4200 -35.4200 -35.4200 -35.4200 -35.4200 -35.4200 -35.4200 -35.4200 * logK= -35.420000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C Zn3AsO42:2.5H2O type= arsenate formula= mole vol.= 0.0000 cc mole wt.= 518.9861 g 3 species in reaction 3.000 Zn++ 2.000 AsO4--- 2.500 H2O -27.5000 -27.5000 -27.5000 -27.5000 -27.5000 -27.5000 -27.5000 -27.5000 * logK= -27.500000 deltaH= 0.000000 kJ Zn3O(SO4)2 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 404.2323 g 4 species in reaction 3.000 Zn++ -2.000 H+ 1.000 H2O 2.000 SO4-- 23.0516 20.8920 18.9135 16.7478 14.7801 12.9844 11.3392 9.8262 * logK= 18.913500 deltaH= -258.080100 kJ Zn4(OH)6SO4 type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 459.5850 g 4 species in reaction 4.000 Zn++ -6.000 H+ 6.000 H2O 1.000 SO4-- 28.4000 28.4000 28.4000 28.4000 28.4000 28.4000 28.4000 28.4000 * logK= 28.400000 deltaH= 0.000000 kJ Zn5(OH)8Cl2 type= chloride formula= mole vol.= 0.0000 cc mole wt.= 533.8139 g 4 species in reaction 5.000 Zn++ 2.000 Cl- -8.000 H+ 8.000 H2O 38.5000 38.5000 38.5000 38.5000 38.5000 38.5000 38.5000 38.5000 * logK= 38.500000 deltaH= 0.000000 kJ ZnBr2:2H2O type= bromide formula= mole vol.= 0.0000 cc mole wt.= 261.2083 g 3 species in reaction 1.000 Zn++ 2.000 Br- 2.000 H2O 5.6923 5.4356 5.2005 4.9431 4.7093 4.4959 4.3004 4.1206 * logK= 5.200500 deltaH= -30.670000 kJ ZnCl2 type= chloride formula= mole vol.= 0.0000 cc mole wt.= 136.2759 g 2 species in reaction 1.000 Zn++ 2.000 Cl- 8.2125 7.6058 7.0500 6.4416 5.8888 5.3844 4.9222 4.4972 * logK= 7.050000 deltaH= -72.500000 kJ ZnCO3 type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 125.3791 g 2 species in reaction 1.000 Zn++ 1.000 CO3-- -10.8000 -10.8000 -10.8000 -10.8000 -10.8000 -10.8000 -10.8000 -10.8000 * logK= -10.800000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ZnCO3:1H2O type= carbonate formula= mole vol.= 0.0000 cc mole wt.= 143.3943 g 3 species in reaction 1.000 Zn++ 1.000 CO3-- 1.000 H2O -10.2600 -10.2600 -10.2600 -10.2600 -10.2600 -10.2600 -10.2600 -10.2600 * logK= -10.260000 deltaH= 0.000000 kJ ZnF2 type= fluoride formula= mole vol.= 0.0000 cc mole wt.= 103.3667 g 2 species in reaction 1.000 Zn++ 2.000 F- .4228 -.0767 -.5343 -1.0352 -1.4903 -1.9056 -2.2861 -2.6361 * logK= -0.534300 deltaH= -59.690000 kJ ZnI2 type= iodide formula= mole vol.= 0.0000 cc mole wt.= 319.1787 g 2 species in reaction 1.000 Zn++ 2.000 I- 8.2502 7.7572 7.3055 6.8111 6.3618 5.9519 5.5763 5.2309 * logK= 7.305500 deltaH= -58.920000 kJ ZnMoO4 type= molybdate formula= mole vol.= 0.0000 cc mole wt.= 225.3075 g 2 species in reaction 1.000 Zn++ 1.000 MoO4-- -9.9540 -10.0434 -10.1254 -10.2151 -10.2966 -10.3710 -10.4391 -10.5018 * logK= -10.125400 deltaH= -10.690100 kJ ZnSb type= antimonide formula= mole vol.= 0.0000 cc mole wt.= 187.1199 g 5 species in reaction 1.000 Zn++ -2.000 H+ -1.250 O2(aq) 1.000 Sb(OH)3 -.500 H2O 130.8045 124.4424 118.6138 112.2337 106.4369 101.1469 96.2999 91.8427 * logK= 118.613800 deltaH= -760.300765 kJ ZnSe type= selenide formula= mole vol.= 0.0000 cc mole wt.= 144.3299 g 3 species in reaction 1.000 Zn++ 1.000 HSe- -1.000 H+ -14.8090 -14.5956 -14.4000 -14.1859 -13.9914 -13.8139 -13.6513 -13.5018 * logK= -14.400000 deltaH= 25.510000 kJ ZnSeO4:6H2O type= selenite, selenate formula= mole vol.= 0.0000 cc mole wt.= 316.4187 g 3 species in reaction 1.000 Zn++ 1.000 SeO4-- 6.000 H2O -1.5200 -1.5200 -1.5200 -1.5200 -1.5200 -1.5200 -1.5200 -1.5200 * logK= -1.520000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C ZnSO4:1H2O type= sulfate formula= mole vol.= 0.0000 cc mole wt.= 179.4467 g 3 species in reaction 1.000 Zn++ 1.000 H2O 1.000 SO4-- .0686 -.3002 -.6380 -1.0078 -1.3438 -1.6504 -1.9314 -2.1898 * logK= -0.638000 deltaH= -44.069900 kJ ZrO2 type= oxide and hydroxide formula= mole vol.= 0.0000 cc mole wt.= 123.2228 g 3 species in reaction 1.000 Zr++++ -4.000 H+ 2.000 H2O 1.8880 1.8880 1.8880 1.8880 1.8880 1.8880 1.8880 1.8880 * logK= 1.888000 deltaH= 0.000000 kJ * deltaH not known; therefore log K is certain only for 25 deg C -end- * Use TEdit to add solid solutions here globally, or add them locally * from the Solid Solutions... dialog in any of the GWB modeling apps. 0 solid solutions -end- 12 gases CH4(g) mole wt.= 16.0426 g chi= -537.779 1.54946 -.000927827 1.20861 -.00370814 3.33804e-6 Pcrit= 45.99 bar Tcrit= 190.56 K omega= .011 4 species in reaction 2.000 H+ -2.000 O2(aq) 1.000 CO3-- 1.000 H2O 145.0891 137.7962 131.1148 123.8012 117.1562 111.0922 105.5361 100.4267 * logK= 131.114800 deltaH= -871.544544 kJ CO2(g) mole wt.= 44.0098 g chi= -1430.87 3.598 -.00227376 3.47644 -.0104247 8.46271e-6 Pcrit= 73.74 bar Tcrit= 304.12 K omega= .225 3 species in reaction 2.000 H+ 1.000 CO3-- -1.000 H2O -18.3155 -18.2032 -18.1487 -18.1440 -18.1922 -18.2827 -18.4075 -18.5610 * logK= -18.149000 deltaH= 10.000000 kJ * analytic data = 355.81 .07359737 -20066.63 -125.30797 0 1579263.9 0 H2S(g) mole wt.= 34.0798 g Pcrit= 89.63 bar Tcrit= 373.4 K omega= .090 2 species in reaction 1.000 H+ 1.000 HS- -8.0100 -8.0100 -8.0100 -8.0100 -8.0100 -8.0100 -8.0100 -8.0100 * logK= -8.010000 deltaH= 0.000000 kJ H2Se(g) mole wt.= 80.9758 g 2 species in reaction 1.000 HSe- 1.000 H+ -4.7147 -4.8427 -4.9600 -5.0884 -5.2050 -5.3115 -5.4090 -5.4987 * logK= -4.960000 deltaH= -15.300000 kJ Hg(CH3)2(g) mole wt.= 230.6594 g 4 species in reaction 4.000 H+ -4.000 O2(aq) 1.000 Hg(OH)2 2.000 CO3-- 299.0796 284.2237 270.6134 255.7153 242.1793 229.8266 218.5087 208.1007 * logK= 270.613400 deltaH= -1775.365188 kJ Hg(g) mole wt.= 200.5900 g 4 species in reaction .500 Hg2++ -1.000 H+ -.250 O2(aq) .500 H2O 15.5552 14.5592 13.6467 12.6479 11.7403 10.9121 10.1533 9.4555 * logK= 13.646700 deltaH= -119.029693 kJ Hg2(g) mole wt.= 401.1800 g 4 species in reaction 1.000 Hg2++ -2.000 H+ -.500 O2(aq) 1.000 H2O 31.6778 29.8026 28.0846 26.2041 24.4954 22.9362 21.5076 20.1938 * logK= 28.084600 deltaH= -224.099386 kJ HgF(g) mole wt.= 219.5884 g 2 species in reaction .500 Hg2++ 1.000 F- 36.7618 34.6293 32.6756 30.5371 28.5940 26.8209 25.1963 23.7022 * logK= 32.675600 deltaH= -254.844000 kJ HgF2(g) mole wt.= 238.5868 g 4 species in reaction 2.000 H+ 1.000 Hg(OH)2 2.000 F- -2.000 H2O 15.2138 13.8315 12.5652 11.1790 9.9196 8.7703 7.7172 6.7488 * logK= 12.565200 deltaH= -165.186000 kJ NH3(g) mole wt.= 17.0304 g Pcrit= 113.53 bar Tcrit= 405.4 K omega= .257 2 species in reaction -1.000 H+ 1.000 NH4+ 12.3889 11.6693 11.0100 10.2883 9.6326 9.0343 8.4860 7.9818 * logK= 11.010000 deltaH= -86.000000 kJ O2(g) mole wt.= 31.9988 g Pcrit= 50.43 bar Tcrit= 154.58 K omega= .025 1 species in reaction 1.000 O2(aq) -2.8732 -2.9345 -2.9906 -3.0520 -3.1079 -3.1588 -3.2055 -3.2484 * logK= -2.990600 deltaH= -7.321228 kJ SO2(g) mole wt.= 64.0628 g Pcrit= 78.84 bar Tcrit= 430.8 K omega= .256 3 species in reaction 2.000 H+ -1.000 H2O 1.000 SO3-- -8.1740 -8.5790 -8.9500 -9.3562 -9.7252 -10.0619 -10.3705 -10.6542 * logK= -8.950000 deltaH= -48.400000 kJ -end- 0 oxides -end- * * This is the end of the data input for GWB programs. The following are the modified datafiles used to produce * this dataset: * * ********************************** comp.mdb *********************************** * -1,"dummy",0,0,0,89.0000,1,1,Du * 1,"E-1",-1,0,0,0,0 * 2,"H2O",0,0,0,18.0153,2,2,H,1,O * 20,"Ag+1",1,0,0,107.868,1,1,Ag * 30,"Al+3",3,9,0,26.9815,1,1,Al * 60,"H3AsO3",0,0,0,125.9437,3,3,H,1,As,3,O * 45,"Am+3",3,0,0,243,1,1,Am * 61,"AsO4-3",-3,0,0,138.92,2,1,As,4,O * 80,"Au+3",3,0,0,196.967,1,1,Au * 90,"H3BO3",0,0,0,61.8331,3,3,H,1,B,3,O * 100,"Ba+2",2,5,0,137.34,1,1,Ba * 110,"Be+2",2,0,0,9.0122,1,1,Be * 115,"Bi+3",3,0,0,208.98,1,1,Bi * 125,"Bk+3",3,0,0,247,1,1,Bk * 130,"Br-1",-1,4,0,79.904,1,1,Br * 135,"Ce+3",3,0,0,140.116,1,1,Ce * 140,"CO3-2",-2,5.4,0,60.0094,2,1,C,3,O * 143,"CN-1",-1,0,0,26.018,2,1,C,1,N * 144,"DOM1",-2.8,0,0,0,0 * 145,"DOM2",-2.8,0,0,0,0 * 146,"DOM3",-2.8,0,0,0,0 * 150,"Ca+2",2,6,.165,40.08,1,1,Ca * 160,"Cd+2",2,0,0,112.3994,1,1,Cd * 170,"Cf+3",3,0,0,251,1,1,Cf * 180,"Cl-1",-1,3,.015,35.453,1,1,Cl * 181,"ClO4-1",-1,0,0,99.445,2,1,Cl,4,O * 182,"OCl-1",-1,0,0,51.45,2,1,O,1,Cl * 190,"Cm+3",3,0,0,247,1,1,Cm * 200,"Co+2",2,0,0,58.9332,1,1,Co * 201,"Co+3",3,0,0,58.9332,1,1,Co * 210,"Cr+2",2,0,0,51.996,1,1,Cr * 211,"Cr(OH)2+1",1,0,0,86.011,3,1,Cr,2,O,2,H * 212,"CrO4-2",-2,4,0,115.994,2,1,Cr,4,O * 215,"Cs+1",1,0,0,132.905,1,1,Cs * 230,"Cu+1",1,2.5,0,63.546,1,1,Cu * 231,"Cu+2",2,6,0,63.546,1,1,Cu * 240,"Dy+3",3,0,0,162.5,1,1,Dy * 250,"Er+3",3,0,0,167.259,1,1,Er * 260,"Eu+3",3,0,0,151.964,1,1,Eu * 270,"F-1",-1,3.5,0,18.9984,1,1,F * 280,"Fe+2",2,6,0,55.847,1,1,Fe * 281,"Fe+3",3,9,0,55.847,1,1,Fe * 290,"Ga+3",3,0,0,69.723,1,1,Ga * 310,"Gd+3",3,0,0,157.25,1,1,Gd * 330,"H+1",1,9,0,1.008,1,1,H * 350,"Hf+4",4,0,0,178.49,1,1,Hf * 360,"Hg2+2",2,4,0,401.18,1,2,Hg * 361,"Hg(OH)2",0,0,0,234.61,3,1,Hg,2,O,2,H * 370,"Ho+3",3,0,0,164.93,1,1,Ho * 380,"I-1",-1,0,0,126.9044,1,1,I * 390,"In+3",3,0,0,114.818,1,1,In * 410,"K+1",1,3,.015,39.102,1,1,K * 420,"La+3",3,0,0,138.906,1,1,La * 440,"Li+1",1,6,0,6.939,1,1,Li * 450,"Lu+3",3,0,0,174.967,1,1,Lu * 460,"Mg+2",2,6.5,.2,24.312,1,1,Mg * 470,"Mn+2",2,6,0,54.938,1,1,Mn * 471,"Mn+3",3,9,0,54.938,1,1,Mn * 480,"MoO4-2",-2,0,0,159.9376,2,1,Mo,4,O * 490,"NH4+1",1,2.5,0,18.0386,2,1,N,4,H * 491,"NO2-1",-1,0,0,46.0055,2,1,N,2,O * 492,"NO3-1",-1,3,0,62.0049,2,1,N,3,O * 500,"Na+1",1,4,.075,22.9898,1,1,Na * 520,"Nd+3",3,0,0,144.24,1,1,Nd * 540,"Ni+2",2,0,0,58.71,1,1,Ni * 550,"NpO2+1",1,0,0,268.99,2,1,Np,2,O * 551,"Np+3",3,0,0,237,1,1,Np * 552,"Np+4",4,0,0,237,1,1,Np * 553,"NpO2+2",2,0,0,268.99,2,1,Np,2,O * 560,"OCN-1",-1,0,0,42.01,3,1,O,1,C,1,N * 561,"SCN-1",-1,0,0,58.07,3,1,S,1,C,1,N * 570,"Pd+2",2,0,0,106.42,1,1,Pd * 580,"PO4-3",-3,5,0,94.9714,2,1,P,4,O * 585,"Pr+3",3,0,0,140.908,1,1,Pr * 590,"Pu+3",3,0,0,244,1,1,Pu * 591,"Pu+4",4,0,0,244,1,1,Pu * 592,"PuO2+1",1,0,0,275.99,2,1,Pu,2,O * 593,"PuO2+2",2,0,0,275.99,2,1,Pu,2,O * 600,"Pb+2",2,0,0,207.1899,1,1,Pb * 680,"Rb+1",1,0,0,85.4699,1,1,Rb * 730,"HS-1",-1,3.5,0,33.072,2,1,H,1,S * 731,"S",0,0,0,32.064,1,1,S * 732,"SO4-2",-2,4,-.04,96.0616,2,1,S,4,O * 733,"S2O3-2",-2,0,0,112.12,2,2,S,3,O * 734,"SO3-2",-2,0,0,80.062,2,1,S,3,O * 740,"Sb(OH)3",0,0,0,172.7719,3,1,Sb,3,O,3,H * 741,"Sb(OH)6-",-1,0,0,223.7938,3,1,Sb,6,O,6,H * 750,"Sc+3",3,0,0,44.956,1,1,Sc * 760,"HSe-1",-1,0,0,79.97,2,1,H,1,Se * 761,"HSeO3-1",-1,0,0,127.97,3,1,H,1,Se,3,O * 762,"SeO4-2",-2,4,0,142.96,2,1,Se,4,O * 770,"H4SiO4",0,0,0,96.1155,3,4,H,1,Si,4,O * 780,"Sm+3",3,0,0,150.36,1,1,Sm * 790,"Sn(OH)2",0,0,0,152.7246,3,1,Sn,2,O,2,H * 791,"Sn(OH)6-2",-2,0,0,220.7538,3,1,Sn,6,O,6,H * 800,"Sr+2",2,5,0,87.62,1,1,Sr * 801,"Tb+3",3,0,0,158.925,1,1,Tb * 802,"Th+4",4,0,0,232.04,1,1,Th * 803,"Ti(OH)4",0,0,0,115.9,3,1,Ti,4,O,4,H * 804,"WO4-2",-2,0,0,247.824,2,1,W,4,O * 805,"Y+3",3,0,0,88.91,1,1,Y * 806,"Yb+3",3,0,0,173.04,1,1,Yb * 811,">(s)FeOH",0,0,0,72.8543,3,1,Fe,1,O,1,H * 812,">(w)FeOH",0,0,0,72.8543,3,1,Fe,1,O,1,H * 813,"PSIo(1)",0,0,0,0,0 * 814,"PSIb(1)",0,0,0,0,0 * 815,"PSId(1)",0,0,0,0,0 * 816,"ADS1TYP3",0,0,0,1,0 * 817,"=SX-(1)",-1,0,0,1 * 818,"=IX-(1)",-1,0,0,1 * 821,"ADS2TYP1",0,0,0,1,0 * 822,"ADS2TYP2",0,0,0,1,0 * 823,"PSIo(2)",0,0,0,0,0 * 824,"PSIb(2)",0,0,0,0,0 * 825,"PSId(2)",0,0,0,0,0 * 826,"ADS2TYP3",0,0,0,1,0 * 827,"=SX-(2)",-1,0,0,1 * 828,"=IX-(2)",-1,0,0,1 * 831,"ADS3TYP1",0,0,0,1,0 * 832,"ADS3TYP2",0,0,0,1,0 * 833,"PSIo(3)",0,0,0,0,0 * 834,"PSIb(3)",0,0,0,0,0 * 835,"PSId(3)",0,0,0,0,0 * 836,"ADS3TYP3",0,0,0,1,0 * 837,"=SX-(3)",-1,0,0,1 * 838,"=IX-(3)",-1,0,0,1 * 841,"ADS4TYP1",0,0,0,1,0 * 842,"ADS4TYP2",0,0,0,1,0 * 843,"PSIo(4)",0,0,0,0,0 * 844,"PSIb(4)",0,0,0,0,0 * 845,"PSId(4)",0,0,0,0,0 * 846,"ADS4TYP3",0,0,0,1,0 * 847,"=SX-(4)",-1,0,0,1 * 848,"=IX-(4)",-1,0,0,1 * 851,"ADS5TYP1",0,0,0,1,0 * 852,"ADS5TYP2",0,0,0,1,0 * 853,"PSIo(5)",0,0,0,0,0 * 854,"PSIb(5)",0,0,0,0,0 * 855,"PSId(5)",0,0,0,0,0 * 856,"ADS5TYP3",0,0,0,1,0 * 857,"=SX-(5)",-1,0,0,1 * 858,"=IX-(5)",-1,0,0,1 * 870,"Tl+1",1,0,0,204.37,1,1,Tl * 871,"Tl(OH)3",0,0,0,255.39,3,1,Tl,3,O,3,H * 880,"Tm+3",3,0,0,168.934,1,1,Tm * 891,"U+4",4,0,0,238.029,1,1,U * 893,"UO2+2",2,0,0,270.0278,2,1,U,2,O * 900,"V+2",2,0,0,50.94,1,1,V * 901,"V+3",3,0,0,50.94,1,1,V * 902,"VO+2",2,0,0,66.939,2,1,V,1,O * 903,"HVO4-2",-2,0,0,115.9482,3,1,H,1,V,4,O * 917,"Benzoate-1",-1,0,0,121.12,3,7,C,5,H,2,O * 918,"PhAcO-1",-1,0,0,135.14,3,8,C,7,H,2,O * 920,"iPhthalate-2",-2,0,0,164.03,3,8,C,4,H,4,O * 950,"Zn+2",2,6,0,65.3699,1,1,Zn * 951,"Zr+4",4,0,0,91.224,1,1,Zr * 955,"DiEtAm",0,0,0,73.138,3,4,C,11,H,1,N * 956,"BuAm",0,0,0,73.138,3,4,C,11,H,1,N * 958,"MeAm",0,0,0,31.057,3,1,C,5,H,1,N * 959,"DiMeAm",0,0,0,45.084,3,2,C,7,H,1,N * 961,"HexylAm",0,0,0,101.192,3,6,C,15,H,1,N * 963,"EtDiAm",0,0,0,60.099,3,2,C,8,H,2,N * 964,"PrAm",0,0,0,59.111,3,3,C,9,H,1,N * 965,"iPrAm",0,0,0,59.111,3,3,C,9,H,1,N * 966,"TriMeAm",0,0,0,59.111,3,3,C,9,H,1,N * 967,"Citrate-3",-3,0,0,189.102,3,6,C,5,H,7,O * 968,"NTA-3",-3,0,0,188.117,4,6,C,6,H,6,O,1,N * 969,"EDTA-4",-4,0,0,288.214,4,10,C,12,H,2,N,8,O * 970,"EGTA-4",-4,0,0,376.32,4,14,C,20,H,2,N,10,O * 971,"Propionate-1",-1,0,0,73.072,3,3,C,5,H,2,O * 972,"Butyrate-1",-1,0,0,87.098,3,4,C,2,O,7,H * 973,"iButyrate-1",-1,0,0,87.098,3,4,C,2,O,7,H * 974,"DTPA-5",-5,0,0,388.31,4,14,C,18,H,3,N,10,O * 975,"Malate-2",-2,0,0,132.014,3,4,C,4,H,5,O * 976,"Malonate-2",-2,0,0,102,3,3,C,2,H,4,O * 977,"Succinate-2",-2,0,0,116.016,3,4,C,4,H,4,O * 978,"Glutarate-2",-2,0,0,130.032,3,5,C,6,H,4,O * 979,"HEDTA-3",-3,0,0,275.238,4,10,C,15,H,2,N,7,O * 980,"2Picol",0,0,0,93.128,3,6,C,7,H,1,N * 981,"3Picol",0,0,0,93.128,3,6,C,7,H,1,N * 982,"4Picol",0,0,0,93.128,3,6,C,7,H,1,N * 983,"Formate-1",-1,0,0,45.018,3,1,H,1,C,2,O * 984,"iValerate-1",-1,0,0,101.125,3,5,C,9,H,2,O * 985,"Valerate-1",-1,0,0,101.125,3,5,C,9,H,2,O * 986,"Lactate-1",-1,0,0,89.071,3,3,C,5,H,3,O * 991,"Oxalate-2",-2,0,0,88.004,2,2,C,4,O * 992,"Acetate-1",-1,0,0,59.045,3,2,C,3,H,2,O * 993,"Tartrate-2",-2,0,0,148.072,3,4,C,4,H,6,O * 994,"Glycine-1",-1,0,0,74.059,4,2,C,4,H,1,N,2,O * 995,"Sal-2",-2,0,0,136.107,3,7,C,4,H,3,O * 996,"Glutamate-2",-2,0,0,145.115,4,5,C,7,H,1,N,4,O * 997,"Phthalate-2",-2,0,0,164.117,3,8,C,4,H,4,O * 998,"H+1D",1,0,0,1.008 * 999,"OH-D",-1,0,0,17.0074 * 1401,"Ts1-Fer",0,0,0,0,0 * 0,"",0,0,0,0,0 * * * ******************************** end comp.mdb ********************************* * * ********************************* thermo.mdb ********************************** * AQUEOUS * 3307301,"S-2",49.4,-17.4,0,0,-2,5,0,2,2 * 1,730,-1,330 * 32.0651,"Migd02","NIST2.1.1" * 3307601,"Se-2",48.116,-15,0,0,-2,0,0,0,2 * 1,760,-1,330 * 78.9521,"SCD3.02 (1968 DKa)","MTQ3.11" * 8713300,"Tl+3",0,3.291,0,0,3,0,0,0,3 * 1,871,-3,2,3,330 * 204.3828,"NIST 46.7","n.a." * 3600000,"Hg (aq)",-45.735,6.5667,0,0,0,0,0,0,2 * .5,360,1,1 * 200.59,"NIST2.1.1","NIST2.1.1" * 3613300,"Hg+2",-39.72,6.164,0,0,2,0,0,0,3 * 1,361,-2,2,2,330 * 200.5852,"NIST 46.7","NIST 46.7" * 2113300,"Cr+3",-93.62,9.84,0,0,3,0,0,0,3 * 1,211,-2,2,2,330 * 51.996,"BallNord98","NIST 46.6" * 3300020,"OH-",55.81,-13.997,0,0,-1,3.5,0,1,2 * 1,2,-1,330 * 17.0074,"NIST 46.7","NIST 46.7" * 7903301,"Sn+2",0,7.094,0,0,2,0,0,0,3 * 1,790,-2,2,2,330 * 118.7098,"NIST 46.7","n.a." * 7903302,"SnOH+",0,3.697,0,0,1,0,0,0,3 * 1,790,-1,2,1,330 * 135.7172,"NIST 46.7","n.a." * 7903303,"Sn(OH)3-",0,-9.497,0,0,-1,0,0,0,3 * 1,790,1,2,-1,330 * 169.732,"NIST 46.7","n.a." * 7903304,"Sn2(OH)2+2",0,9.394,0,0,2,0,0,0,3 * 2,790,-2,2,2,330 * 271.4344,"NIST 46.7","n.a." * 7903305,"Sn3(OH)4+2",0,14.414,0,0,2,0,0,0,3 * 3,790,-2,2,2,330 * 424.159,"NIST 46.7","n.a." * 7913301,"Sn+4",0,21.2194,0,0,4,0,0,0,3 * 1,791,-6,2,6,330 * 118.7094,"Bard85","MTQ3.11" * 7913302,"SnO3-2",0,-2.2099,0,0,-2,0,0,0,2 * 1,791,-3,2 * 166.7079,"Bard85","MTQ3.11" * 803301,"Au(OH)4-",0,-11.788,0,0,-1,0,0,0,3 * 1,80,-4,330,4,2 * 264.9962,"NIST 46.7","n.a." * 803300,"AuOH+2",0,-1.497,0,0,2,0,0,0,3 * 1,80,-1,330,1,2 * 213.9743,"NIST 46.7","n.a." * 9503304,"Zn2OH+3",63.81,-8.997,0,0,3,0,0,1,3 * 2,950,-1,330,1,2 * 147.7471,"NIST 46.7","NIST 46.7" * 3503301,"Hf(OH)5-",0,-17.185,0,0,-1,0,0,0,3 * 1,350,-5,330,5,2 * 263.5265,"NIST 46.7","n.a." * 3503300,"HfOH+3",0,-.197,0,0,3,0,0,0,3 * 1,350,-1,330,1,2 * 195.4973,"NIST 46.7","n.a." * 9513302,"Zr(OH)4 (aq)",0,-6.358,0,0,0,0,0,0,3 * 1,951,-4,330,4,2 * 159.2532,"NIST 46.7","n.a." * 5533302,"(NpO2)3(OH)5+",0,-17.475,0,0,1,0,0,0,3 * 3,553,-5,330,5,2 * 892.0065,"NIST 46.7","n.a." * 5533301,"(NpO2)2(OH)2+2",0,-6.384,0,0,2,0,0,0,3 * 2,553,-2,330,2,2 * 571.9946,"NIST 46.7","n.a." * 5533300,"NpO2OH+",0,-5.117,0,0,1,0,0,0,3 * 1,553,-1,330,1,2 * 285.9973,"NIST 46.7","n.a." * 1903301,"Cm(OH)2+",0,-14.714,0,0,1,0,0,0,3 * 1,190,-2,330,1,2 * 262.9993,"NIST 46.7","n.a." * 5513300,"NpOH+2",0,-6.887,0,0,2,0,0,0,3 * 1,551,-1,330,1,2 * 254.0073,"NIST 46.7","NIST 46.7" * 1353300,"CeOH+2",0,-8.297,0,0,2,0,0,0,3 * 1,135,-1,330,1,2 * 157.1233,"NIST 46.7","n.a." * 6003300,"PbOH+",23.81,-7.597,0,0,1,0,0,0,3 * 1,600,1,2,-1,330 * 224.2074,"NIST 46.7","NIST 46.7" * 6003301,"Pb(OH)2 (aq)",0,-17.094,0,0,0,0,0,0,3 * 1,600,2,2,-2,330 * 241.2148,"NIST 46.7","n.a." * 6003302,"Pb(OH)3-",0,-28.091,0,0,-1,0,0,0,3 * 1,600,3,2,-3,330 * 258.2222,"NIST 46.7","n.a." * 6003303,"Pb2OH+3",0,-6.397,0,0,3,0,0,0,3 * 2,600,1,2,-1,330 * 431.4074,"NIST 46.7","n.a." * 6003304,"Pb3(OH)4+2",116.24,-23.888,0,0,2,0,0,0,3 * 3,600,4,2,-4,330 * 689.6296,"NIST 46.7","NIST 46.7" * 6003306,"Pb4(OH)4+4",85.24,-20.888,0,0,4,0,0,0,3 * 4,600,4,2,-4,330 * 896.8296,"NIST 46.7","NIST 46.7" * 902700,"BF(OH)3-",7.7404,-.399,0,0,-1,2.5,0,0,2 * 1,90,1,270 * 80.8314,"MTQ3.11","MTQ3.11" * 902701,"BF2(OH)2-",6.8408,7.63,0,0,-1,2.5,0,0,4 * 1,90,2,270,-1,2,1,330 * 82.8224,"MTQ3.11","MTQ3.11" * 902702,"BF3OH-",-20.4897,13.22,0,0,-1,2.5,0,0,4 * 1,90,3,270,-2,2,2,330 * 84.8134,"NIST2.1.1","NIST2.1.1" * 303300,"AlOH+2",47.81,-4.997,0,0,2,5.4,0,0,3 * 1,30,1,2,-1,330 * 43.9889,"NIST 46.7","NIST 46.7" * 303301,"Al(OH)2+",122.5,-10.294,0,0,1,5.4,0,0,3 * 1,30,2,2,-2,330 * 60.9963,"NIST 46.7","NoMay89" * 303303,"Al(OH)3 (aq)",176.3,-16.691,0,0,0,0,0,0,3 * 1,30,3,2,-3,330 * 78.0037,"NIST 46.7","NoMay89" * 303302,"Al(OH)4-",183,-23,0,0,-1,4.5,0,0,3 * 1,30,4,2,-4,330 * 95.0111,"Wes92","Wes92" * 8703300,"TlOH (aq)",56.81,-13.207,0,0,0,0,0,0,3 * 1,870,1,2,-1,330 * 221.3904,"NIST 46.7","NIST 46.7" * 8713301,"TlOH+2",0,2.694,0,0,2,0,0,0,3 * 1,871,-2,2,2,330 * 221.3902,"NIST 46.7","n.a." * 8713302,"Tl(OH)2+",0,1.897,0,0,1,0,0,0,3 * 1,871,-1,2,1,330 * 238.3976,"NIST 46.7","n.a." * 8713303,"Tl(OH)4-1",0,-11.697,0,0,-1,0,0,0,3 * 1,871,1,2,-1,330 * 272.4124,"NIST 46.7","n.a." * 9503300,"ZnOH+",55.81,-8.997,0,0,1,0,0,0,3 * 1,950,1,2,-1,330 * 82.3974,"NIST 46.7","NIST 46.7" * 9503301,"Zn(OH)2 (aq)",0,-16.894,0,0,0,0,0,2,3 * 1,950,2,2,-2,330 * 99.4048,"NIST 46.7","n.a." * 9503302,"Zn(OH)3-",0,-28.391,0,0,-1,0,0,3,3 * 1,950,3,2,-3,330 * 116.4122,"NIST 46.7","n.a." * 9503303,"Zn(OH)4-2",0,-41.188,0,0,-2,0,0,4,3 * 1,950,4,2,-4,330 * 133.4196,"NIST 46.7","n.a." * 1603300,"CdOH+",54.81,-10.097,0,0,1,0,0,0,3 * 1,160,1,2,-1,330 * 129.4174,"NIST 46.7","NIST 46.7" * 1603301,"Cd(OH)2 (aq)",0,-20.294,0,0,0,0,0,0,3 * 1,160,2,2,-2,330 * 146.4248,"NIST 46.7","n.a." * 1603302,"Cd(OH)3-",0,-33.3,0,0,-1,0,0,0,3 * 1,160,-3,330,3,2 * 163.4213,"ParkApp99","n.a." * 1603303,"Cd(OH)4-2",0,-47.288,0,0,-2,0,0,0,3 * 1,160,4,2,-4,330 * 180.4396,"NIST 46.7","n.a." * 1603304,"Cd2OH+3",45.81,-9.397,0,0,3,0,0,0,3 * 2,160,1,2,-1,330 * 241.8274,"NIST 46.7","NIST 46.7" * 3613302,"HgOH+",-18.89,2.767,0,0,1,0,0,0,3 * 1,361,-1,2,1,330 * 217.5926,"NIST 46.7","NIST 46.7" * 3613305,"Hg3(OH)3+3",0,12.101,0,0,3,0,0,0,3 * 3,361,3,330,-3,2 * 652.8081,"NIST 46.7","n.a." * 3613304,"Hg2OH+3",-65.39,9.031,0,0,3,0,0,0,3 * 2,361,3,330,-3,2 * 418.1981,"NIST 46.7","NIST 46.7" * 2313300,"CuOH+",35.81,-7.497,0,0,1,4,0,0,3 * 1,231,1,2,-1,330 * 80.5534,"NIST 46.7","NIST 46.7" * 2313305,"Cu2OH+3",27,-6.71,0,0,3,0,0,1,3 * 2,231,-1,330,1,2 * 144.0993,"PlyWZM97","PlyWZM97" * 2313303,"Cu(OH)4-2",178.5,-39.73,0,0,-2,0,0,0,3 * 1,231,-4,330,4,2 * 131.5752,"PlyWZM97","PlyWZM97" * 2313302,"Cu(OH)3-",0,-26.64,0,0,-1,0,0,0,3 * 1,231,-3,330,3,2 * 114.5679,"PlyWZM97","n.a." * 2313301,"Cu(OH)2 (aq)",93.1,-16.23,0,0,0,0,0,0,3 * 1,231,-2,330,2,2 * 97.5606,"PlyWZM97","PlyWZM97" * 2313304,"Cu2(OH)2+2",76.62,-10.494,0,0,2,0,0,2,3 * 2,231,2,2,-2,330 * 161.1068,"NIST 46.7","NIST 46.7" * 203300,"AgOH (aq)",0,-11.997,0,0,0,0,0,0,3 * 1,20,1,2,-1,330 * 124.8756,"NIST 46.7","n.a." * 203301,"Ag(OH)2-",0,-24.004,0,0,-1,0,0,0,3 * 1,20,2,2,-2,330 * 141.883,"NIST 46.7","n.a." * 5403300,"NiOH+",51.81,-9.897,0,0,1,0,0,0,3 * 1,540,1,2,-1,330 * 75.6974,"NIST 46.7","NIST 46.7" * 5403301,"Ni(OH)2 (aq)",0,-18.994,0,0,0,0,0,0,3 * 1,540,2,2,-2,330 * 92.7048,"NIST 46.7","n.a." * 5403302,"Ni(OH)3-",0,-29.991,0,0,-1,0,0,0,3 * 1,540,3,2,-3,330 * 109.7122,"NIST 46.7","n.a." * 2003300,"CoOH+",0,-9.697,0,0,1,0,0,0,3 * 1,200,1,2,-1,330 * 75.9406,"NIST 46.7","n.a." * 2003301,"Co(OH)2 (aq)",0,-18.794,0,0,0,0,0,0,3 * 1,200,2,2,-2,330 * 92.948,"NIST 46.7","n.a." * 2003302,"Co(OH)3-",0,-31.491,0,0,-1,0,0,0,3 * 1,200,3,2,-3,330 * 109.9554,"NIST 46.7","n.a." * 2003306,"Co4(OH)4+4",0,-30.488,0,0,4,0,0,0,3 * 4,200,4,2,-4,330 * 303.7624,"NIST 46.7","n.a." * 2013300,"CoOH+2",0,-1.291,0,0,2,0,0,0,3 * 1,201,1,2,-1,330 * 75.9406,"NIST46.4","MTQ3.11" * 2803300,"FeOH+",55.81,-9.397,0,0,1,5,0,0,3 * 1,280,1,2,-1,330 * 72.8544,"NIST 46.7","NIST 46.7" * 2803302,"Fe(OH)2 (aq)",119.62,-20.494,0,0,0,0,0,0,3 * 1,280,2,2,-2,330 * 89.8618,"NIST 46.7","NIST 46.7" * 2803301,"Fe(OH)3-",126.43,-30.991,0,0,-1,5,0,0,3 * 1,280,3,2,-3,330 * 106.8692,"NIST 46.7","NIST 46.7" * 2813300,"FeOH+2",25.1,-2.02,0,0,2,5,0,0,3 * 1,281,1,2,-1,330 * 72.8544,"LiuMill99","LiuMill99" * 2813301,"Fe(OH)2+",37.7,-5.75,0,0,1,5.4,0,0,3 * 1,281,2,2,-2,330 * 89.8618,"LiuMill99","LiuMill99" * 2813302,"Fe(OH)3 (aq)",75.3,-15,0,0,0,0,0,0,3 * 1,281,3,2,-3,330 * 106.8692,"LiuMill99","LiuMill99" * 2813303,"Fe(OH)4-",154.8,-22.7,0,0,-1,5.4,0,0,3 * 1,281,4,2,-4,330 * 123.8766,"LiuMill99","LiuMill99" * 2813304,"Fe2(OH)2+4",56.42,-2.894,0,0,4,0,0,0,3 * 2,281,2,2,-2,330 * 145.7088,"NIST 46.7","NIST 46.7" * 2813305,"Fe3(OH)4+5",65.24,-6.288,0,0,5,0,0,0,3 * 3,281,4,2,-4,330 * 235.5706,"NIST 46.7","NIST 46.7" * 4703300,"MnOH+",59.81,-10.597,0,0,1,5,0,1,3 * 1,470,1,2,-1,330 * 71.9454,"NIST 46.7","NIST 46.7" * 4703302,"Mn(OH)4-2",0,-48.288,0,0,-2,5,0,4,3 * 1,470,4,2,-4,330 * 122.9676,"NIST 46.7","n.a." * 4700020,"MnO4-",822.6699,-127.7945,0,0,-1,3,0,0,4 * 1,470,4,2,-8,330,-5,1 * 118.936,"NIST2.1.1","NIST2.1.1" * 4700021,"MnO4-2",711.0699,-118.4218,0,0,-2,5,0,0,4 * 1,470,4,2,-8,330,-4,1 * 118.936,"NIST2.1.1","NIST2.1.1" * 2113301,"CrOH+2",-41.91,6.27,0,0,2,0,0,0,3 * 1,211,-1,2,1,330 * 69.0034,"BallNord98","NIST 46.6" * 2113302,"Cr(OH)3 (aq)",0,-6.35,0,0,0,0,0,0,3 * 1,211,1,2,-1,330 * 103.0182,"BallNord98","n.a." * 2113303,"Cr(OH)4-",0,-17.81,0,0,-1,0,0,0,3 * 1,211,2,2,-2,330 * 120.0256,"BallNord98","n.a." * 2113306,"Cr3(OH)4+5",0,18.77,0,0,5,0,0,0,3 * 3,211,2,330,-2,2 * 224.0184,"BallNord98","n.a." * 2113305,"Cr2(OH)2+4",0,14.68,0,0,4,0,0,0,3 * 2,211,2,330,-2,2 * 138.0074,"BallNord98","n.a." * 9003300,"VOH+",59.81,-6.497,0,0,1,0,0,0,3 * 1,900,1,2,-1,330 * 67.9499,"NIST 46.7","NIST 46.7" * 9013300,"VOH+2",0,-2.297,0,0,2,0,0,0,3 * 1,901,1,2,-1,330 * 67.9499,"NIST 46.7","n.a." * 9013301,"V(OH)2+",0,-6.984,0,0,1,0,0,0,3 * 1,901,2,2,-2,330 * 84.9573,"NIST 46.7","n.a." * 9013304,"V2(OH)2+4",0,-3.794,0,0,4,0,0,0,3 * 2,901,2,2,-2,330 * 135.8998,"NIST 46.7","n.a." * 9023300,"V(OH)3+",0,-5.697,0,0,1,0,0,0,3 * 1,902,2,2,-1,330 * 101.9646,"NIST 46.7","n.a." * 9023301,"H2V2O4+2",53.62,-6.694,0,0,2,0,0,0,3 * 2,902,2,2,-2,330 * 167.8986,"NIST 46.7","NIST 46.7" * 1504921,"Ca(NO3)2",0,-4.5,0,0,0,0,0,0,2 * 1,150,2,492 * 164.0898,"Lind79","Lind79" * 8023303,"Th2(OH)2+6",61.62,-6.094,0,0,6,0,0,0,3 * 2,802,-2,330,2,2 * 498.0946,"NIST 46.7","NIST 46.7" * 5933301,"PuO2(OH)2 (aq)",0,-13.19,0,0,0,0,0,0,3 * 1,593,-2,330,2,2 * 310.0046,"Runde02","n.a." * 5933300,"PuO2OH+",0,-5.2,0,0,1,0,0,0,3 * 1,593,-1,330,1,2 * 292.9973,"Runde02","n.a." * 5913303,"Pu(OH)4 (aq)",0,-8.6,0,0,0,0,0,0,3 * 1,591,-4,330,4,2 * 312.0292,"Runde02","n.a." * 5913302,"Pu(OH)3+",0,-2.3,0,0,1,0,0,0,3 * 1,591,-3,330,3,2 * 295.0219,"Runde02","n.a." * 5913301,"Pu(OH)2+2",0,.6,0,0,2,0,0,0,3 * 1,591,-2,330,2,2 * 278.0146,"Runde02","n.a." * 5913300,"PuOH+3",0,.6,0,0,3,0,0,0,3 * 1,591,-1,330,1,2 * 261.0073,"Runde02","n.a." * 5903301,"PuOH+2",0,-7,0,0,2,0,0,0,3 * 1,590,-1,330,1,2 * 261.0073,"Runde02","n.a." * 5523301,"Np(OH)4 (aq)",0,-10,0,0,0,0,0,0,3 * 1,552,-4,330,4,2 * 305.0292,"KaszRund99","n.a." * 5523300,"NpOH+3",0,-.4,0,0,3,0,0,0,3 * 1,552,-1,330,1,2 * 254.0073,"KaszRund99","n.a." * 5503301,"NpO2(OH)2-",0,-23.644,0,0,-1,0,0,0,3 * 1,550,-2,330,2,2 * 303.0046,"KaszRund99","n.a." * 8023300,"Th(OH)+3",22.81,-3.197,0,0,3,0,0,0,3 * 1,802,-1,330,1,2 * 249.0473,"NIST 46.7","NIST 46.7" * 8053300,"YOH+2",0,-7.697,0,0,2,0,0,0,3 * 1,805,-1,330,1,2 * 105.9173,"NIST 46.6","n.a." * 3103300,"GdOH+2",0,-7.787,0,0,2,0,0,0,3 * 1,310,-1,330,1,2 * 174.2573,"NIST 46.7","n.a." * 8913300,"UOH+3",47.81,-.597,0,0,3,0,0,0,3 * 1,891,1,2,-1,330 * 255.0363,"NIST 46.7","NIST 46.7" * 8913301,"U(OH)4 (aq)",0,-10,0,0,0,0,0,0,3 * 1,891,-4,330,4,2 * 306.0582,"NEA_2003","n.a." * 8933300,"UO2OH+",.9,-5.25,0,0,1,0,0,0,3 * 1,893,1,2,-1,330 * 287.0351,"NEA_2003","NEA_2003" * 8933301,"(UO2)2(OH)2+2",48.9,-5.62,0,0,2,0,0,0,3 * 2,893,2,2,-2,330 * 574.0702,"NEA_2003","NEA_2003" * 8933302,"(UO2)3(OH)5+",123,-15.55,0,0,1,0,0,0,3 * 3,893,5,2,-5,330 * 895.1201,"NEA_2003","NEA_2003" * 8933309,"(UO2)4(OH)7+",0,-21.9,0,0,1,0,0,0,3 * 4,893,-7,330,7,2 * 1199.1623,"NEA_2003","n.a." * 8933308,"(UO2)3(OH)7-",0,-32.2,0,0,-1,0,0,0,3 * 3,893,-7,330,7,2 * 929.1345,"NEA_2003","n.a." * 8933307,"(UO2)3(OH)4+2",0,-11.9,0,0,2,0,0,0,3 * 3,893,-4,330,4,2 * 878.1126,"NEA_2003","n.a." * 8933306,"(UO2)2OH+3",0,-2.7,0,0,3,0,0,0,3 * 2,893,-1,330,1,2 * 557.0629,"NEA_2003","n.a." * 8933305,"UO2(OH)4-2",0,-32.4,0,0,-2,0,0,0,3 * 1,893,-4,330,4,2 * 338.057,"NEA_2003","n.a." * 8933304,"UO2(OH)3-",0,-20.25,0,0,-1,0,0,0,3 * 1,893,-3,330,3,2 * 321.0497,"NEA_2003","n.a." * 8933303,"UO2(OH)2 (aq)",0,-12.15,0,0,0,0,0,0,3 * 1,893,-2,330,2,2 * 304.0424,"NEA_2003","n.a." * 1103302,"Be(OH)2 (aq)",0,-11.134,0,0,0,6.5,0,0,3 * 1,110,2,2,-2,330 * 43.027,"NIST 46.7","n.a." * 1103305,"Be2OH+3",28.81,-3.177,0,0,3,6.5,0,0,3 * 2,110,1,2,-1,330 * 35.0318,"NIST 46.7","NIST 46.7" * 1103306,"Be3(OH)3+3",67.43,-8.891,0,0,3,6.5,0,0,3 * 3,110,3,2,-3,330 * 78.0588,"NIST 46.7","NIST 46.7" * 4603300,"MgOH+",67.81,-11.417,0,0,1,6.5,0,1,3 * 1,460,1,2,-1,330 * 41.3124,"NIST 46.7","NIST 46.7" * 1503300,"CaOH+",64.11,-12.697,0,0,1,6,0,1,3 * 1,150,1,2,-1,330 * 57.0854,"NIST 46.7","NIST 46.7" * 8003300,"SrOH+",60.81,-13.177,0,0,1,5,0,0,3 * 1,800,1,2,-1,330 * 104.6274,"NIST 46.7","NIST 46.7" * 1003300,"BaOH+",60.81,-13.357,0,0,1,5,0,0,3 * 1,100,1,2,-1,330 * 154.3374,"NIST 46.7","NIST 46.7" * 1153303,"Bi(OH)4-",0,-21.188,0,0,-1,0,0,0,3 * 1,115,-4,330,4,2 * 277.0092,"NIST 46.7","n.a." * 1153302,"Bi(OH)3 (aq)",0,-8.991,0,0,0,0,0,0,3 * 1,115,-3,330,3,2 * 260.0019,"NIST 46.7","n.a." * 1153301,"Bi(OH)2+",0,-3.474,0,0,1,0,0,0,3 * 1,115,-2,330,2,2 * 242.9946,"NIST 46.7","n.a." * 1153300,"BiOH+2",18.81,-1.097,0,0,2,0,0,0,3 * 1,115,-1,330,1,2 * 225.9873,"NIST 46.7","NIST 46.7" * 3903303,"In(OH)4-",0,-22.088,0,0,-1,0,0,0,3 * 1,390,-4,330,4,2 * 182.8472,"NIST 46.7","n.a." * 3903302,"In(OH)3 (aq)",0,-12.391,0,0,0,0,0,0,3 * 1,390,-3,330,3,2 * 165.8399,"NIST 46.7","n.a." * 3903301,"In(OH)2+",57.62,-7.794,0,0,1,0,0,0,3 * 1,390,-2,330,2,2 * 148.8326,"NIST 46.7","NIST 46.7" * 3903300,"InOH+2",21.81,-3.927,0,0,2,0,0,0,3 * 1,390,-1,330,1,2 * 131.8253,"NIST 46.7","NIST 46.7" * 2903303,"Ga(OH)4-",0,-16.588,0,0,-1,0,0,0,3 * 1,290,-4,330,4,2 * 137.7522,"NIST 46.7","n.a." * 2903301,"Ga(OH)2+",0,-6.694,0,0,1,0,0,0,3 * 1,290,-2,330,2,2 * 103.7376,"NIST 46.7","n.a." * 2903300,"GaOH+2",22.81,-2.897,0,0,2,0,0,0,3 * 1,290,-1,330,1,2 * 86.7303,"NIST 46.7","NIST 46.7" * 5703300,"PdOH+",0,-2.79,0,0,1,0,0,0,3 * 1,570,-1,330,1,2 * 123.4273,"NIST 46.7","n.a." * 8063300,"YbOH+2",0,-7.387,0,0,2,0,0,0,3 * 1,806,-1,330,1,2 * 190.0473,"NIST 46.7","n.a." * 303305,"Al3(OH)4+5",140.24,-13.888,0,0,5,0,0,0,3 * 3,30,-4,330,4,2 * 148.9737,"NIST 46.7","NIST 46.7" * 303304,"Al2(OH)2+4",74.62,-7.694,0,0,4,0,0,0,3 * 2,30,-2,330,2,2 * 87.9776,"NIST 46.7","NIST 46.7" * 9513301,"Zr(OH)5-",0,-15.985,0,0,-1,0,0,0,3 * 1,951,-5,330,5,2 * 176.2605,"NIST 46.7","n.a." * 9513300,"ZrOH+3",0,.303,0,0,3,0,0,0,3 * 1,951,-1,330,1,2 * 108.2313,"NIST 46.7","n.a." * 2313306,"Cu3(OH)4+2",106.24,-20.788,0,0,2,0,0,4,3 * 3,231,-4,330,4,2 * 258.6672,"NIST 46.7","NIST 46.7" * 4703304,"Mn2(OH)3+",0,-23.891,0,0,1,0,0,3,3 * 2,470,-3,330,3,2 * 160.8979,"NIST 46.7","n.a." * 4703303,"Mn2OH+3",0,-10.597,0,0,3,0,0,1,3 * 2,470,-1,330,1,2 * 126.8833,"NIST 46.7","n.a." * 2103300,"CrOH+",0,-5.087,0,0,1,0,0,0,3 * 1,210,-1,330,1,2 * 69.0033,"NIST 46.7","n.a." * 5923300,"PuO2OH (aq)",0,-9.7,0,0,0,0,0,0,3 * 1,592,-1,330,1,2 * 292.9973,"Runde02","n.a." * 5503300,"NpO2OH (aq)",33.81,-11.297,0,0,0,0,0,0,3 * 1,550,-1,330,1,2 * 285.9973,"KaszRund99","NIST 46.6" * 1703300,"CfOH+2",0,-6.147,0,0,2,0,0,0,3 * 1,170,-1,330,1,2 * 268.0073,"NIST 46.7","n.a." * 1253300,"BkOH+2",0,-6.147,0,0,2,0,0,0,3 * 1,125,-1,330,1,2 * 264.0073,"NIST 46.7","n.a." * 1903300,"CmOH+2",0,-6.547,0,0,2,0,0,0,3 * 1,190,-1,330,1,2 * 264.0073,"NIST 46.7","n.a." * 453302,"Am(OH)3 (aq)",0,-25.691,0,0,0,0,0,0,3 * 1,45,-3,330,3,2 * 294.0219,"NIST 46.7","n.a." * 453301,"Am(OH)2+",0,-14.094,0,0,1,0,0,0,3 * 1,45,-2,330,2,2 * 277.0146,"NIST 46.7","n.a." * 453300,"AmOH+2",0,-6.497,0,0,2,0,0,0,3 * 1,45,-1,330,1,2 * 260.0073,"NIST 46.7","n.a." * 4503300,"LuOH+2",0,-7.387,0,0,2,0,0,0,3 * 1,450,-1,330,1,2 * 191.9743,"NIST 46.7","n.a." * 8803300,"TmOH+2",0,-7.387,0,0,2,0,0,0,3 * 1,880,-1,330,1,2 * 185.9413,"NIST 46.7","n.a." * 2503300,"ErOH+2",0,-7.487,0,0,2,0,0,0,3 * 1,250,-1,330,1,2 * 184.2663,"NIST 46.7","n.a." * 3703300,"HoOH+2",0,-7.487,0,0,2,0,0,0,3 * 1,370,-1,330,1,2 * 181.9373,"NIST 46.7","n.a." * 2403300,"DyOH+2",0,-7.587,0,0,2,0,0,0,3 * 1,240,-1,330,1,2 * 179.5073,"NIST 46.7","n.a." * 8013300,"TbOH+2",0,-7.587,0,0,2,0,0,0,3 * 1,801,-1,330,1,2 * 175.9323,"NIST 46.7","n.a." * 8023301,"Th(OH)2+2",57.62,-6.894,0,0,2,0,0,0,3 * 1,802,-2,330,2,2 * 266.0546,"NIST 46.7","NIST 46.7" * 2603300,"EuOH+2",0,-7.787,0,0,2,0,0,0,3 * 1,260,-1,330,1,2 * 168.9713,"NIST 46.7","n.a." * 7803300,"SmOH+2",35.81,-7.787,0,0,2,0,0,0,3 * 1,780,-1,330,1,2 * 167.3673,"NIST 46.7","n.a." * 5203302,"Nd2(OH)2+4",0,-13.894,0,0,4,0,0,0,3 * 2,520,-2,330,2,2 * 322.4946,"NIST 46.7","n.a." * 5203301,"Nd(OH)4-",0,-37.388,0,0,-1,0,0,0,3 * 1,520,-4,330,4,2 * 212.2692,"NIST 46.7","n.a." * 5203300,"NdOH+2",0,-7.997,0,0,2,0,0,0,3 * 1,520,-1,330,1,2 * 161.2473,"NIST 46.7","n.a." * 5853300,"PrOH+2",0,-8.007,0,0,2,0,0,0,3 * 1,585,-1,330,1,2 * 157.9153,"NIST 46.7","n.a." * 4203300,"LaOH+2",0,-8.497,0,0,2,0,0,0,3 * 1,420,-1,330,1,2 * 155.9133,"NIST 46.7","n.a." * 8053303,"Y2(OH)2+4",0,-14.194,0,0,4,0,0,0,3 * 2,805,-2,330,2,2 * 211.8346,"NIST 46.7","n.a." * 7503304,"Sc2(OH)2+4",61.62,-5.994,0,0,4,0,0,0,3 * 2,750,-2,330,2,2 * 123.9266,"NIST 46.7","NIST 46.7" * 7503303,"Sc(OH)4-",0,-25.988,0,0,-1,0,0,0,3 * 1,750,-4,330,4,2 * 112.9852,"NIST 46.7","n.a." * 7503302,"Sc(OH)3 (aq)",0,-18.091,0,0,0,0,0,0,3 * 1,750,-3,330,3,2 * 95.9779,"NIST 46.7","n.a." * 7503301,"Sc(OH)2+",0,-9.694,0,0,1,0,0,0,3 * 1,750,-2,330,2,2 * 78.9706,"NIST 46.7","n.a." * 7503300,"ScOH+2",63.81,-4.297,0,0,2,0,0,0,3 * 1,750,-1,330,1,2 * 61.9633,"NIST 46.7","NIST 46.7" * 1103308,"Be6(OH)8+4",208.5,-27.18,0,0,4,0,0,0,3 * 6,110,-8,330,8,2 * 190.1316,"NIST 46.7","NIST 46.7" * 1103307,"Be5(OH)7+3",148.7,-25.48,0,0,3,0,0,0,3 * 5,110,-7,330,7,2 * 164.1121,"NIST 46.7","NIST 46.7" * 1103300,"Be5(OH)6+4",127.9,-18.8,0,0,4,0,0,0,3 * 5,110,-6,330,6,2 * 147.1048,"NIST 46.7","NIST 46.7" * 4103300,"KOH (aq)",55.81,-13.757,0,0,0,0,0,1,3 * 1,410,-1,330,1,2 * 56.1093,"NIST 46.7","NIST 46.7" * 5003300,"NaOH (aq)",59.81,-13.897,0,0,0,0,0,1,3 * 1,500,-1,330,1,2 * 39.9971,"NIST 46.7","NIST 46.7" * 4403300,"LiOH (aq)",55.81,-13.637,0,0,0,0,0,0,3 * 1,440,-1,330,1,2 * 23.9463,"NIST 46.7","NIST 46.7" * 8033300,"Ti(OH)3+",0,1.822,0,0,1,0,0,0,3 * 1,803,1,330,-1,2 * 98.893,"Kna01","Kna01" * 8033301,"Ti(OH)5-",0,-11.983,0,0,-1,0,0,0,3 * 1,803,-1,330,1,2 * 132.9073,"Kna01","Kna01" * 3302700,"HF (aq)",13.3,3.18,0,0,0,0,0,-1,2 * 1,330,1,270 * 20.0063,"NIST 46.7","NIST 46.7" * 3302701,"HF2-",17.4,3.78,0,0,-1,3.5,0,-1,2 * 1,330,2,270 * 39.0047,"NIST 46.7","NIST 46.7" * 7402700,"SbOF (aq)",0,6.1864,0,0,0,0,0,0,4 * 1,740,1,270,1,330,-2,2 * 156.7457,"PNL89","PNL89" * 7402702,"Sb(OH)2F (aq)",0,6.1937,0,0,0,0,0,0,4 * 1,740,1,270,1,330,-1,2 * 174.761,"PNL89","PNL89" * 7413300,"Sb(OH)5 (aq)",0,2.82,0,0,0,0,0,0,3 * 1,741,1,330,-1,2 * 206.7865,"FiMay03","n.a." * 7702700,"SiF6-2",-68,30.18,0,0,-2,5,0,0,4 * 1,770,4,330,6,270,-4,2 * 142.0757,"Nord90","Nord90" * 2112702,"CrF3 (aq)",0,21.55,0,0,0,0,0,0,4 * 1,211,3,270,2,330,-2,2 * 108.9916,"NIST 46.7","n.a." * 2112701,"CrF2+",0,18.88,0,0,1,0,0,0,4 * 1,211,2,270,2,330,-2,2 * 89.9932,"NIST 46.7","n.a." * 7902701,"SnF+",0,11.58,0,0,1,0,0,0,4 * 1,790,-2,2,2,330,1,270 * 137.7082,"NIST 46.7","n.a." * 7902702,"SnF2 (aq)",0,14.48,0,0,0,0,0,0,4 * 1,790,-2,2,2,330,2,270 * 156.7066,"NIST 46.7","n.a." * 7902703,"SnF3-",0,17.206,0,0,-1,0,0,0,4 * 1,790,-2,2,2,330,3,270 * 175.705,"NIST46.4","MTQ3.11" * 7912701,"SnF6-2",0,33.5844,0,0,-2,0,0,0,4 * 1,791,-6,2,6,330,6,270 * 232.6998,"Bard85","MTQ3.11" * 6002700,"PbF+",0,2.15,0,0,1,0,0,0,2 * 1,600,1,270 * 226.1984,"NIST 46.7","n.a." * 6002701,"PbF2 (aq)",0,3.24,0,0,0,0,0,0,2 * 1,600,2,270 * 245.1968,"NIST 46.7","n.a." * 902703,"BF4-",-18.67,19.912,0,0,-1,2.5,0,0,4 * 1,90,3,330,4,270,-3,2 * 86.8044,"NIST46.3","NIST2.1.1" * 5932701,"PuO2F2 (aq)",0,7.2,0,0,0,0,0,0,2 * 1,593,2,270 * 313.9868,"Runde02","n.a." * 5932700,"PuO2F+",0,4.7,0,0,1,0,0,0,2 * 1,593,1,270 * 294.9884,"Runde02","n.a." * 5912701,"PuF2+2",0,15.8,0,0,2,0,0,0,2 * 1,591,2,270 * 281.9968,"Runde02","n.a." * 5912700,"PuF+3",0,8.8,0,0,3,0,0,0,2 * 1,591,1,270 * 262.9984,"Runde02","n.a." * 302700,"AlF+2",4.6,7.01,0,0,2,5.4,0,0,2 * 1,30,1,270 * 45.9799,"NIST 46.7","NIST 46.7" * 302701,"AlF2+",8.3,12.63,0,0,1,5.4,0,0,2 * 1,30,2,270 * 64.9783,"NIST 46.7","NIST 46.7" * 302702,"AlF3 (aq)",8.7,16.7,0,0,0,0,0,0,2 * 1,30,3,270 * 83.9767,"NIST 46.7","NIST 46.7" * 302703,"AlF4-",8.7,19.4,0,0,-1,4.5,0,0,2 * 1,30,4,270 * 102.9751,"NIST 46.7","NIST 46.7" * 8702700,"TlF (aq)",0,.1,0,0,0,0,0,0,2 * 1,870,1,270 * 223.3814,"NIST 46.7","n.a." * 9502700,"ZnF+",11,1.3,0,0,1,0,0,0,2 * 1,950,1,270 * 84.3884,"NIST 46.7","NIST 46.7" * 1602700,"CdF+",5,1.2,0,0,1,0,0,0,2 * 1,160,1,270 * 131.4084,"NIST 46.7","NIST 46.7" * 3612701,"HgF+",-35.7,7.76,0,0,1,0,0,0,4 * 1,361,-2,2,2,330,1,270 * 219.5836,"NIST 46.7","NIST 46.7" * 2312700,"CuF+",13,1.7,0,0,1,0,0,0,2 * 1,231,1,270 * 82.5444,"NIST 46.7","NIST 46.7" * 202700,"AgF (aq)",-12,.4,0,0,0,0,0,0,2 * 1,20,1,270 * 126.8666,"NIST 46.7","NIST 46.7" * 5402700,"NiF+",7.1,1.3,0,0,1,0,0,0,2 * 1,540,1,270 * 77.6884,"NIST 46.7","NIST 46.7" * 2002700,"CoF+",9.2,1.4,0,0,1,0,0,0,2 * 1,200,1,270 * 77.9316,"NIST 46.7","NIST 46.7" * 8062700,"YbF+2",11,4.59,0,0,2,0,0,0,2 * 1,806,1,270 * 192.0384,"NIST 46.7","NIST 46.7" * 2812700,"FeF+2",10,6.04,0,0,2,5,0,0,2 * 1,281,1,270 * 74.8454,"NIST 46.7","NIST 46.7" * 2812701,"FeF2+",17,10.66,0,0,1,5,0,0,2 * 1,281,2,270 * 93.8438,"NIST 46.7","NIST 46.7" * 2812702,"FeF3 (aq)",29,13.7,0,0,0,0,0,0,2 * 1,281,3,270 * 112.8422,"NIST 46.7","NIST 46.7" * 3102701,"GdF2+",0,7.2,0,0,1,0,0,0,2 * 1,310,2,270 * 195.2468,"Spahiu95","Spahiu95" * 3102700,"GdF+2",9.2,4.31,0,0,2,0,0,0,2 * 1,310,1,270 * 176.2484,"NIST 46.7","NIST 46.7" * 4702700,"MnF+",11,1.5,0,0,1,5,0,0,2 * 1,470,1,270 * 73.9364,"NIST 46.7","NIST 46.7" * 2112700,"CrF+2",-83.6,15.04,0,0,2,0,0,0,4 * 1,211,-2,2,2,330,1,270 * 70.9944,"NIST 46.7","NIST 46.7" * 9022700,"VOF+",7.9,3.77,0,0,1,0,0,0,2 * 1,902,1,270 * 85.9403,"NIST 46.7","NIST 46.7" * 9022701,"VOF2 (aq)",14,6.48,0,0,0,0,0,0,2 * 1,902,2,270 * 104.9387,"NIST 46.7","NIST 46.7" * 9022702,"VOF3-",20,7.96,0,0,-1,0,0,0,2 * 1,902,3,270 * 123.9371,"NIST 46.7","NIST 46.7" * 9022703,"VOF4-2",26,8.63,0,0,-2,0,0,0,2 * 1,902,4,270 * 142.9355,"NIST 46.7","NIST 46.7" * 9032700,"VO2F (aq)",0,19.24,0,0,0,0,0,0,4 * 1,903,1,270,3,330,-2,2 * 101.9397,"NIST 46.7","n.a." * 9032701,"VO2F2-",0,21.68,0,0,-1,0,0,0,4 * 1,903,2,270,3,330,-2,2 * 120.9381,"NIST 46.7","n.a." * 9032702,"VO2F3-2",0,22.65,0,0,-2,0,0,0,4 * 1,903,3,270,3,330,-2,2 * 139.9365,"NIST 46.7","n.a." * 9032703,"VO2F4-3",0,22.48,0,0,-3,0,0,0,4 * 1,903,4,270,3,330,-2,2 * 158.9349,"NIST 46.7","n.a." * 8912700,"UF+3",-5.6,9.42,0,0,3,0,0,0,2 * 1,891,1,270 * 257.0273,"NEA_2003","NEA_2003" * 8912701,"UF2+2",-3.5,16.56,0,0,2,0,0,0,2 * 1,891,2,270 * 276.0257,"NEA_2003","NEA_2003" * 8912702,"UF3+",.5,21.89,0,0,1,0,0,0,2 * 1,891,3,270 * 295.0241,"NEA_2003","NEA_2003" * 8912703,"UF4 (aq)",-8.43,26.34,0,0,0,0,0,0,2 * 1,891,4,270 * 314.0225,"NEA_2003","NEA_2003" * 8912704,"UF5-",20.2924,27.73,0,0,-1,0,0,0,2 * 1,891,5,270 * 333.0209,"NEA_2003","MTQ3.11" * 8912705,"UF6-2",13.8072,29.8,0,0,-2,0,0,0,2 * 1,891,6,270 * 352.0193,"NEA_2003","MTQ3.11" * 8932700,"UO2F+",1.7,5.16,0,0,1,0,0,0,2 * 1,893,1,270 * 289.0261,"NEA_2003","NEA_2003" * 8932701,"UO2F2 (aq)",2.1,8.83,0,0,0,0,0,0,2 * 1,893,2,270 * 308.0245,"NEA_2003","NEA_2003" * 8932702,"UO2F3-",2.35,10.9,0,0,-1,0,0,0,2 * 1,893,3,270 * 327.0229,"NEA_2003","NEA_2003" * 8932703,"UO2F4-2",.29,11.84,0,0,-2,0,0,0,2 * 1,893,4,270 * 346.0213,"NEA_2003","NEA_2003" * 5532702,"NpO2F3-",0,9.48,0,0,-1,0,0,0,2 * 1,553,3,270 * 325.9852,"NIST 46.7","n.a." * 5532701,"NpO2F2 (aq)",0,7.73,0,0,0,0,0,0,2 * 1,553,2,270 * 306.9868,"NIST 46.7","n.a." * 5532700,"NpO2F+",0,4.59,0,0,1,0,0,0,2 * 1,553,1,270 * 287.9884,"NIST 46.7","n.a." * 5522700,"NpF+3",4,8.37,0,0,3,0,0,0,2 * 1,552,1,270 * 255.9984,"NIST 46.7","NIST 46.7" * 1352700,"CeF+2",0,3.94,0,0,2,0,0,0,2 * 1,135,1,270 * 159.1144,"NIST 46.7","n.a." * 2152700,"CsF (aq)",0,-.36,0,0,0,0,0,0,2 * 1,215,1,270 * 151.9034,"NIST 46.7","n.a." * 6802700,"RbF (aq)",0,-.22,0,0,0,0,0,0,2 * 1,680,1,270 * 104.4683,"NIST 46.7","n.a." * 1102701,"BeF+",0,5.25,0,0,1,0,0,0,2 * 1,110,1,270 * 28.0106,"NIST 46.7","NIST 46.7" * 1102702,"BeF2 (aq)",-4,9.18,0,0,0,0,0,0,2 * 1,110,2,270 * 47.009,"NIST 46.7","NIST 46.7" * 1102703,"BeF3-",-8,11.93,0,0,-1,0,0,0,2 * 1,110,3,270 * 66.0074,"NIST 46.7","NIST 46.7" * 4602700,"MgF+",13,1.9,0,0,1,4.5,0,0,2 * 1,460,1,270 * 43.3034,"NIST 46.7","NIST 46.7" * 1502700,"CaF+",14,1.14,0,0,1,5,0,0,2 * 1,150,1,270 * 59.0764,"NIST 46.7","NIST 46.7" * 8002701,"SrF+",16,.56,0,0,1,0,0,0,2 * 1,800,1,270 * 106.6184,"NIST 46.7","NIST 46.7" * 5002700,"NaF (aq)",12,.02,0,0,0,0,0,0,2 * 1,500,1,270 * 41.9882,"NIST 46.7","NIST 46.7" * 3902703,"InF4-",38,11.4,0,0,-1,0,0,0,2 * 1,390,4,270 * 190.8116,"NIST 46.7","NIST 46.7" * 3902702,"InF3 (aq)",29,10.3,0,0,0,0,0,0,2 * 1,390,3,270 * 171.8132,"NIST 46.7","NIST 46.7" * 3902701,"InF2+",23,8,0,0,1,0,0,0,2 * 1,390,2,270 * 152.8148,"NIST 46.7","NIST 46.7" * 3902700,"InF+2",10,4.65,0,0,2,0,0,0,2 * 1,390,1,270 * 133.8164,"NIST 46.7","NIST 46.7" * 2902702,"GaF3 (aq)",0,12.08,0,0,0,0,0,0,2 * 1,290,3,270 * 126.7182,"NIST 46.7","n.a." * 2902701,"GaF2+",0,9.34,0,0,1,0,0,0,2 * 1,290,2,270 * 107.7198,"NIST 46.7","n.a." * 2902700,"GaF+2",10,5.28,0,0,2,0,0,0,2 * 1,290,1,270 * 88.7214,"NIST 46.7","NIST 46.7" * 9512700,"ZrF+3",-5.4,9.8,0,0,3,0,0,0,2 * 1,951,1,270 * 110.2224,"NIST 46.7","NIST 46.7" * 9012700,"VF+2",0,5.61,0,0,2,0,0,0,2 * 1,901,1,270 * 69.9384,"NIST 46.7","n.a." * 2802700,"FeF+",0,1.21,0,0,1,0,0,0,2 * 1,280,1,270 * 74.8454,"NIST 46.7","n.a." * 5502700,"NpO2F (aq)",0,1.72,0,0,0,0,0,0,2 * 1,550,1,270 * 287.9884,"NIST 46.7","n.a." * 8022703,"ThF4 (aq)",0,23.2,0,0,0,0,0,0,2 * 1,802,4,270 * 308.0336,"NIST 46.7","n.a." * 8022702,"ThF3+",7.9,20.2,0,0,1,0,0,0,2 * 1,802,3,270 * 289.0352,"NIST 46.7","NIST 46.7" * 8022701,"ThF2+2",4.1,15.26,0,0,2,0,0,0,2 * 1,802,2,270 * 270.0368,"NIST 46.7","NIST 46.7" * 8022700,"ThF+3",1,8.65,0,0,3,0,0,0,2 * 1,802,1,270 * 251.0384,"NIST 46.7","NIST 46.7" * 1702700,"CfF+2",12,3.64,0,0,2,0,0,0,2 * 1,170,1,270 * 269.9984,"NIST 46.7","NIST 46.7" * 1252700,"BkF+2",12,3.5,0,0,2,0,0,0,2 * 1,125,1,270 * 265.9984,"NIST 46.7","NIST 46.7" * 1902700,"CmF+2",12,3.22,0,0,2,0,0,0,2 * 1,190,1,270 * 265.9984,"NIST 46.7","NIST 46.7" * 452701,"AmF2+",25,5.8,0,0,1,0,0,0,2 * 1,45,2,270 * 280.9968,"NIST 46.7","NIST 46.7" * 452700,"AmF+2",20,3.4,0,0,2,0,0,0,2 * 1,45,1,270 * 261.9984,"NIST 46.7","NIST 46.7" * 4502700,"LuF+2",11,4.62,0,0,2,0,0,0,2 * 1,450,1,270 * 193.9654,"NIST 46.7","NIST 46.7" * 8802700,"TmF+2",10,4.57,0,0,2,0,0,0,2 * 1,880,1,270 * 187.9324,"NIST 46.7","NIST 46.7" * 2502700,"ErF+2",10,4.55,0,0,2,0,0,0,2 * 1,250,1,270 * 186.2574,"NIST 46.7","NIST 46.7" * 8052701,"YF2+",0,8.54,0,0,1,0,0,0,2 * 1,805,2,270 * 126.9068,"NIST 46.7","n.a." * 8052700,"YF+2",9.2,4.81,0,0,2,0,0,0,2 * 1,805,1,270 * 107.9084,"NIST 46.7","NIST 46.7" * 3702700,"HoF+2",10,4.53,0,0,2,0,0,0,2 * 1,370,1,270 * 183.9284,"NIST 46.7","NIST 46.7" * 2402700,"DyF+2",9.2,4.48,0,0,2,0,0,0,2 * 1,240,1,270 * 181.4984,"NIST 46.7","NIST 46.7" * 8012700,"TbF+2",9.2,4.45,0,0,2,0,0,0,2 * 1,801,1,270 * 177.9234,"NIST 46.7","NIST 46.7" * 2602701,"EuF2+",16,6.71,0,0,1,0,0,0,2 * 1,260,2,270 * 189.9608,"NIST 46.7","NIST 46.7" * 2602700,"EuF+2",9.6,4.24,0,0,2,0,0,0,2 * 1,260,1,270 * 170.9624,"NIST 46.7","NIST 46.7" * 7802700,"SmF+2",10,4.18,0,0,2,0,0,0,2 * 1,780,1,270 * 169.3584,"NIST 46.7","NIST 46.7" * 5202700,"NdF+2",13,4.13,0,0,2,0,0,0,2 * 1,520,1,270 * 163.2384,"NIST 46.7","NIST 46.7" * 5852700,"PrF+2",14,4.05,0,0,2,0,0,0,2 * 1,585,1,270 * 159.9064,"NIST 46.7","NIST 46.7" * 4202700,"LaF+2",12,3.6,0,0,2,0,0,0,2 * 1,420,1,270 * 157.9044,"NIST 46.7","NIST 46.7" * 8052702,"YF3 (aq)",0,12.1,0,0,0,0,0,0,2 * 1,805,3,270 * 145.9052,"NIST 46.7","n.a." * 7502703,"ScF4-",16,20.3,0,0,-1,0,0,0,2 * 1,750,4,270 * 120.9496,"NIST 46.7","NIST 46.7" * 7502702,"ScF3 (aq)",23,17.4,0,0,0,0,0,0,2 * 1,750,3,270 * 101.9512,"NIST 46.7","NIST 46.7" * 7502701,"ScF2+",5,12.88,0,0,1,0,0,0,2 * 1,750,2,270 * 82.9528,"NIST 46.7","NIST 46.7" * 7502700,"ScF+2",1,7.08,0,0,2,0,0,0,2 * 1,750,1,270 * 63.9544,"NIST 46.7","NIST 46.7" * 1002700,"BaF+",16,.21,0,0,1,0,0,0,2 * 1,100,1,270 * 156.3384,"NIST 46.7","NIST 46.7" * 1102700,"BeF4-2",-8,13.93,0,0,-2,0,0,0,2 * 1,110,4,270 * 85.0058,"NIST 46.7","NIST 46.7" * 4102700,"KF (aq)",0,-.34,0,0,0,0,0,0,2 * 1,410,1,270 * 58.1004,"NIST 46.7","n.a." * 4402700,"LiF (aq)",4,.31,0,0,0,0,0,0,2 * 1,440,1,270 * 25.9374,"NIST 46.7","NIST 46.7" * 7901801,"SnCl+",0,8.73,0,0,1,0,0,0,4 * 1,790,-2,2,2,330,1,180 * 154.1628,"NIST 46.7","n.a." * 7901802,"SnCl2 (aq)",0,9.49,0,0,0,0,0,0,4 * 1,790,-2,2,2,330,2,180 * 189.6158,"NIST 46.7","n.a." * 6001800,"PbCl+",8.7,1.56,0,0,1,0,0,0,2 * 1,600,1,180 * 242.653,"NIST 46.7","NIST 46.7" * 6001801,"PbCl2 (aq)",12,1.9,0,0,0,0,0,0,2 * 1,600,2,180 * 278.106,"NIST 46.7","NIST 46.7" * 6001802,"PbCl3-",12,1.8,0,0,-1,0,0,0,2 * 1,600,3,180 * 313.559,"NIST 46.7","NIST 46.7" * 8061800,"YbCl+2",0,.41,0,0,2,0,0,0,2 * 1,806,1,180 * 208.493,"NIST 46.7","n.a." * 8701800,"TlCl (aq)",-6.2,.57,0,0,0,0,0,0,2 * 1,870,1,180 * 239.836,"NIST 46.7","NIST 46.7" * 8711800,"TlCl+2",0,11.01,0,0,2,0,0,0,4 * 1,871,-3,2,3,330,1,180 * 239.8358,"NIST 46.7","n.a." * 8711801,"TlCl2+",0,16.77,0,0,1,0,0,0,4 * 1,871,-3,2,3,330,2,180 * 275.2888,"NIST 46.7","n.a." * 8711802,"TlCl3 (aq)",0,19.77,0,0,0,0,0,0,4 * 1,871,-3,2,3,330,3,180 * 310.7418,"NIST 46.7","n.a." * 8711803,"TlCl4-1",0,21.58,0,0,-1,0,0,0,4 * 1,871,-3,2,3,330,4,180 * 346.1948,"NIST 46.7","n.a." * 9501800,"ZnCl+",5.4,.46,0,0,1,4,0,0,2 * 1,950,1,180 * 100.843,"NIST 46.7","NIST 46.7" * 6001803,"PbCl4-2",14.8,1.38,0,0,-2,0,0,0,2 * 1,600,4,180 * 349.0019,"ParkApp99","ParkApp99" * 8931801,"UO2Cl2 (aq)",15,-1.1,0,0,0,0,0,0,2 * 1,893,2,180 * 340.9338,"NEA_2003","NEA_2003" * 4701802,"MnCl3-",0,-.31,0,0,-1,0,0,0,2 * 1,470,3,180 * 161.297,"ParkApp99","n.a." * 4701801,"MnCl2 (aq)",0,.25,0,0,0,0,0,0,2 * 1,470,2,180 * 125.844,"ParkApp99","n.a." * 9501803,"ZnCl4-2",45.9,.2,0,0,-2,0,0,0,2 * 1,950,4,180 * 207.1819,"ParkApp99","ParkApp99" * 9501802,"ZnCl3-",40,.5,0,0,-1,0,0,0,2 * 1,950,3,180 * 171.7289,"ParkApp99","ParkApp99" * 9501801,"ZnCl2 (aq)",35.6,.45,0,0,0,0,0,0,2 * 1,950,2,180 * 136.2759,"ParkApp99","ParkApp99" * 1601800,"CdCl+",2,1.98,0,0,1,0,0,0,2 * 1,160,1,180 * 147.863,"NIST 46.7","NIST 46.7" * 1601801,"CdCl2 (aq)",4.6,2.6,0,0,0,0,0,0,2 * 1,160,2,180 * 183.316,"NIST 46.7","NIST 46.7" * 3611800,"HgCl+",-60.7,13.49,0,0,1,0,0,0,4 * 1,361,-2,2,2,330,1,180 * 236.0382,"NIST 46.7","NIST 46.7" * 3611801,"HgCl2 (aq)",-91.1,20.19,0,0,0,0,0,0,4 * 1,361,-2,2,2,330,2,180 * 271.4912,"NIST 46.7","NIST 46.7" * 3611802,"HgCl3-1",-90.7,21.19,0,0,-1,0,0,0,4 * 1,361,-2,2,2,330,3,180 * 306.9442,"NIST 46.7","NIST 46.7" * 3611803,"HgCl4-2",-99.1,21.79,0,0,-2,0,0,0,4 * 1,361,-2,2,2,330,4,180 * 342.3972,"NIST 46.7","NIST 46.7" * 3611804,"HgClI (aq)",-135.2999,25.532,0,0,0,0,0,0,5 * 1,361,1,180,1,380,2,330,-2,2 * 362.9427,"NIST2.1.1","NIST2.1.1" * 3611805,"HgClOH (aq)",-42.72,10.444,0,0,0,0,0,0,4 * 1,361,-1,2,1,330,1,180 * 253.0456,"NIST46.3","NIST46.3" * 8051800,"YCl+2",0,.58,0,0,2,0,0,0,2 * 1,805,1,180 * 124.363,"NIST 46.7","n.a." * 2311800,"CuCl+",8.3,.3,0,0,1,4,0,0,2 * 1,231,1,180 * 98.999,"NIST 46.7","NIST 46.7" * 2311801,"CuCl2 (aq)",44.183,-.26,0,0,0,0,0,0,2 * 1,231,2,180 * 134.452,"SCD3.02 (1989 IPa)","MTQ3.11" * 2311802,"CuCl3-",57.279,-2.29,0,0,-1,4,0,0,2 * 1,231,3,180 * 169.905,"MTQ3.11","MTQ3.11" * 2311803,"CuCl4-2 1",32.5515,-4.59,0,0,-2,5,0,0,2 * 1,231,4,180 * 205.358,"MTQ3.11","MTQ3.11" * 2301800,"CuCl2-",-1.7573,5.42,0,0,-1,4,0,0,2 * 1,230,2,180 * 134.452,"NIST 46.6","MTQ3.11" * 2301801,"CuCl3-2",-20,4.75,0,0,-2,5,0,0,2 * 1,230,3,180 * 169.905,"NIST 46.6","NIST 46.6" * 2301802,"CuCl (aq)",0,3.1,0,0,0,0,0,0,2 * 1,230,1,180 * 98.999,"NIST 46.6","n.a." * 201800,"AgCl (aq)",-12,3.31,0,0,0,0,0,0,2 * 1,20,1,180 * 143.3212,"NIST 46.7","NIST 46.7" * 201801,"AgCl2-",-16,5.25,0,0,-1,0,0,0,2 * 1,20,2,180 * 178.7742,"NIST 46.7","NIST 46.7" * 201802,"AgCl3-2",-38,5.2,0,0,-2,0,0,0,2 * 1,20,3,180 * 214.2272,"NIST 46.7","NIST 46.7" * 5401800,"NiCl+",2,-.43,0,0,1,0,0,0,2 * 1,540,1,180 * 94.143,"NIST 46.7","NIST 46.7" * 5401801,"NiCl2 (aq)",0,-1.89,0,0,0,0,0,0,2 * 1,540,2,180 * 129.596,"SCD3.02 (1989 IPa)","MTQ3.11" * 301800,"AlCl+2",0,-.39,0,0,2,0,0,0,2 * 1,30,1,180 * 62.4345,"NIST 46.7","n.a." * 5531800,"NpO2Cl+",0,.24,0,0,1,0,0,0,2 * 1,553,1,180 * 304.443,"NIST 46.7","n.a." * 5501800,"NpO2Cl (aq)",0,-.29,0,0,0,0,0,0,2 * 1,550,1,180 * 304.443,"NIST 46.7","n.a." * 5521800,"NpCl+3",0,1.23,0,0,3,0,0,0,2 * 1,552,1,180 * 272.453,"NIST 46.7","n.a." * 4501800,"LuCl+2",0,.21,0,0,2,0,0,0,2 * 1,450,1,180 * 210.42,"NIST 46.7","n.a." * 1351800,"CeCl+2",0,.57,0,0,2,0,0,0,2 * 1,135,1,180 * 175.569,"NIST 46.7","n.a." * 7501800,"ScCl+2",0,.79,0,0,2,0,0,0,2 * 1,750,1,180 * 80.409,"NIST 46.7","n.a." * 4401800,"LiCl (aq)",0,-.16,0,0,0,0,0,0,2 * 1,440,1,180 * 42.392,"NIST 46.7","n.a." * 2001800,"CoCl+",2,-.35,0,0,1,0,0,0,2 * 1,200,1,180 * 94.3862,"NIST 46.7","NIST 46.7" * 5911800,"PuCl+3",0,2,0,0,3,0,0,0,2 * 1,591,1,180 * 279.453,"Runde02","n.a." * 1501800,"CaCl+",4,.4,0,0,1,0,0,0,2 * 1,150,1,180 * 75.533,"NIST 46.7","NIST 46.7" * 2011800,"CoCl+2",16,2.3085,0,0,2,0,0,0,2 * 1,201,1,180 * 94.3862,"NIST46.4","NIST46.4" * 5931800,"PuO2Cl+",0,.22,0,0,1,0,0,0,2 * 1,593,1,180 * 311.443,"Runde02","n.a." * 2811800,"FeCl+2",23,1.48,0,0,2,5,0,0,2 * 1,281,1,180 * 91.3,"NIST 46.7","NIST 46.7" * 4701800,"MnCl+",0,0,0,0,1,5,0,0,2 * 1,470,1,180 * 90.391,"NIST 46.7","n.a." * 2111800,"CrCl+2",-67.6,9.3,0,0,2,0,0,0,4 * 1,211,-2,2,2,330,1,180 * 87.449,"NIST 46.7","NIST 46.7" * 9021800,"VOCl+",0,.45,0,0,1,0,0,0,2 * 1,902,1,180 * 102.3949,"NIST 46.7","n.a." * 8911800,"UCl+3",-19,1.72,0,0,3,0,0,0,2 * 1,891,1,180 * 273.4819,"NEA_2003","NEA_2003" * 8931800,"UO2Cl+",8,.17,0,0,1,0,0,0,2 * 1,893,1,180 * 305.4807,"NEA_2003","NEA_2003" * 1101801,"BeCl+",0,.14,0,0,1,5,0,0,2 * 1,110,1,180 * 44.4652,"NIST 46.7","n.a." * 1151803,"BiCl4-",17,8.1,0,0,-1,0,0,0,2 * 1,115,4,180 * 350.792,"NIST 46.7","NIST 46.7" * 1151802,"BiCl3 (aq)",-19,7.1,0,0,0,0,0,0,2 * 1,115,3,180 * 315.339,"NIST 46.7","NIST 46.7" * 1151801,"BiCl2+",26,5.5,0,0,1,0,0,0,2 * 1,115,2,180 * 279.886,"NIST 46.7","NIST 46.7" * 1151800,"BiCl+2",16,3.6,0,0,2,0,0,0,2 * 1,115,1,180 * 244.433,"NIST 46.7","NIST 46.7" * 3101800,"GdCl+2",0,.3,0,0,2,0,0,0,2 * 1,310,1,180 * 192.703,"Spahiu95","Spahiu95" * 3901802,"InCl3 (aq)",33,5.5,0,0,0,0,0,0,2 * 1,390,3,180 * 221.177,"NIST 46.7","NIST 46.7" * 3901801,"InCl2+",3,4.87,0,0,1,0,0,0,2 * 1,390,2,180 * 185.724,"NIST 46.7","NIST 46.7" * 3901800,"InCl+2",5,3.07,0,0,2,0,0,0,2 * 1,390,1,180 * 150.271,"NIST 46.7","NIST 46.7" * 2901800,"GaCl+2",0,.76,0,0,2,0,0,0,2 * 1,290,1,180 * 105.176,"NIST 46.7","n.a." * 5701803,"PdCl4-2",-48.5,15.4,0,0,-2,0,0,0,2 * 1,570,4,180 * 248.232,"NIST 46.7","NIST 46.7" * 5701802,"PdCl3-",-34,13.1,0,0,-1,0,0,0,2 * 1,570,3,180 * 212.779,"NIST 46.7","NIST 46.7" * 5701801,"PdCl2 (aq)",-23,10.7,0,0,0,0,0,0,2 * 1,570,2,180 * 177.326,"NIST 46.7","NIST 46.7" * 5701800,"PdCl+",-12,6.1,0,0,1,0,0,0,2 * 1,570,1,180 * 141.873,"NIST 46.7","NIST 46.7" * 2801800,"FeCl+",0,-.2,0,0,1,0,0,0,2 * 1,280,1,180 * 91.3,"NIST 46.7","n.a." * 8021800,"ThCl+3",0,1.38,0,0,3,0,0,0,2 * 1,802,1,180 * 267.493,"NIST 46.7","n.a." * 1251800,"BkCl+2",0,.59,0,0,2,0,0,0,2 * 1,125,1,180 * 282.453,"NIST 46.7","n.a." * 451800,"AmCl+2",0,.51,0,0,2,0,0,0,2 * 1,45,1,180 * 278.453,"NIST 46.7","n.a." * 5901800,"PuCl+2",0,.46,0,0,2,0,0,0,2 * 1,590,1,180 * 279.453,"NIST 46.7","n.a." * 8801800,"TmCl+2",0,.51,0,0,2,0,0,0,2 * 1,880,1,180 * 204.387,"NIST 46.7","n.a." * 2601800,"EuCl+2",0,.57,0,0,2,0,0,0,2 * 1,260,1,180 * 187.417,"NIST 46.7","NIST 46.7" * 5851800,"PrCl+2",0,.57,0,0,2,0,0,0,2 * 1,585,1,180 * 176.361,"NIST 46.7","n.a." * 4201800,"LaCl+2",5,.53,0,0,2,0,0,0,2 * 1,420,1,180 * 174.359,"NIST 46.7","NIST 46.7" * 1001800,"BaCl+",12,-.03,0,0,1,0,0,0,2 * 1,100,1,180 * 172.793,"NIST 46.7","NIST 46.7" * 8001800,"SrCl+",8,.19,0,0,1,0,0,0,2 * 1,800,1,180 * 123.073,"NIST 46.7","NIST 46.7" * 4601800,"MgCl+",4,.6,0,0,1,0,0,0,2 * 1,460,1,180 * 59.765,"NIST 46.7","NIST 46.7" * 2151800,"CsCl (aq)",0,-.1,0,0,0,0,0,0,2 * 1,215,1,180 * 168.358,"NIST 46.7","n.a." * 6801800,"RbCl (aq)",0,-.3,0,0,0,0,0,0,2 * 1,680,1,180 * 120.9229,"NIST 46.7","n.a." * 4101800,"KCl (aq)",-4,-.3,0,0,0,0,0,0,2 * 1,410,1,180 * 74.555,"NIST 46.7","NIST 46.7" * 5001800,"NaCl (aq)",-8,-.3,0,0,0,0,0,0,2 * 1,500,1,180 * 58.4428,"NIST 46.7","NIST 46.7" * 1351810,"CeClO4+2",-71,.76,0,0,2,0,0,0,2 * 1,135,1,181 * 239.561,"NIST 46.7","NIST 46.7" * 8701810,"TlClO4 (aq)",0,0,0,0,0,0,0,0,2 * 1,870,1,181 * 303.815,"NIST 46.7","n.a." * 201810,"AgClO4 (aq)",0,-.1,0,0,0,0,0,0,2 * 1,20,1,181 * 207.313,"NIST 46.7","n.a." * 2811810,"FeClO4+2",0,1.15,0,0,2,0,0,0,2 * 1,281,1,181 * 155.292,"NIST 46.7","n.a." * 2151810,"CsClO4 (aq)",0,.23,0,0,0,0,0,0,2 * 1,215,1,181 * 232.35,"NIST 46.7","n.a." * 6801810,"RbClO4 (aq)",0,.15,0,0,0,0,0,0,2 * 1,680,1,181 * 184.9149,"NIST 46.7","n.a." * 4101810,"KClO4 (aq)",0,-.03,0,0,0,0,0,0,2 * 1,410,1,181 * 138.547,"NIST 46.7","n.a." * 5001810,"NaClO4 (aq)",0,-.7,0,0,0,0,0,0,2 * 1,500,1,181 * 122.4348,"NIST 46.7","n.a." * 1823300,"HOCl (aq)",-13,7.53,0,0,0,0,0,0,2 * 1,182,1,330 * 52.458,"NIST 46.7","NIST 46.7" * 1351300,"CeBr+2",0,.46,0,0,2,0,0,0,2 * 1,135,1,130 * 220.02,"NIST 46.7","n.a." * 1151304,"BiBr5-2",0,9.9,0,0,-2,0,0,0,2 * 1,115,5,130 * 608.5,"NIST 46.7","n.a." * 1151303,"BiBr4-",0,9,0,0,-1,0,0,0,2 * 1,115,4,130 * 528.596,"NIST 46.7","n.a." * 1151302,"BiBr3 (aq)",0,7.7,0,0,0,0,0,0,2 * 1,115,3,130 * 448.692,"NIST 46.7","n.a." * 1151301,"BiBr2+",0,5.5,0,0,1,0,0,0,2 * 1,115,2,130 * 368.788,"NIST 46.7","n.a." * 1151300,"BiBr+2",13,3.24,0,0,2,0,0,0,2 * 1,115,1,130 * 288.884,"NIST 46.7","NIST 46.7" * 3901301,"InBr2+",7.5,4.35,0,0,1,0,0,0,2 * 1,390,2,130 * 274.626,"NIST 46.7","NIST 46.7" * 3901300,"InBr+2",2,2.76,0,0,2,0,0,0,2 * 1,390,1,130 * 194.722,"NIST 46.7","NIST 46.7" * 2901300,"GaBr+2",0,.65,0,0,2,0,0,0,2 * 1,290,1,130 * 149.627,"NIST 46.7","n.a." * 6001302,"PbBr3-",-4,3.01,0,0,-1,0,0,0,2 * 1,600,3,130 * 446.9019,"NIST 46.7","NIST 46.7" * 1601303,"CdBr4-2",-2,2.9,0,0,-2,0,0,0,2 * 1,160,4,130 * 432.0154,"NIST 46.7","NIST 46.7" * 1601302,"CdBr3-",0,3,0,0,-1,0,0,0,2 * 1,160,3,130 * 352.1114,"NIST 46.7","n.a." * 5701303,"PdBr4-2",-54.8,15.13,0,0,-2,0,0,0,2 * 1,570,4,130 * 426.036,"NIST 46.7","NIST 46.7" * 5701302,"PdBr3-",0,13.31,0,0,-1,0,0,0,2 * 1,570,3,130 * 346.132,"NIST 46.7","n.a." * 5701301,"PdBr2 (aq)",0,10.13,0,0,0,0,0,0,2 * 1,570,2,130 * 266.228,"NIST 46.7","n.a." * 5701300,"PdBr+",-21,5.58,0,0,1,0,0,0,2 * 1,570,1,130 * 186.324,"NIST 46.7","NIST 46.7" * 201303,"AgBr4-3",0,8.7,0,0,-3,0,0,0,2 * 1,20,4,130 * 427.484,"NIST 46.7","n.a." * 2301302,"CuBr3-2",0,6.43,0,0,-2,0,0,0,2 * 1,230,3,130 * 303.258,"NIST 46.6","n.a." * 2301301,"CuBr2-",0,5.86,0,0,-1,0,0,0,2 * 1,230,2,130 * 223.354,"NIST 46.6","n.a." * 2301300,"CuBr (aq)",0,3.53,0,0,0,0,0,0,2 * 1,230,1,130 * 143.45,"NIST 46.6","n.a." * 2811300,"FeBr+2",25,.6,0,0,2,0,0,0,2 * 1,281,1,130 * 135.751,"NIST 46.7","NIST 46.7" * 2111302,"CrBr3 (aq)",0,14.24,0,0,0,0,0,0,4 * 1,211,3,130,2,330,-2,2 * 291.7084,"NIST 46.7","n.a." * 2111301,"CrBr2+",0,13.3,0,0,1,0,0,0,4 * 1,211,2,130,2,330,-2,2 * 211.8044,"NIST 46.7","n.a." * 2311300,"CuBr+",12,-.04,0,0,1,0,0,0,2 * 1,231,1,130 * 143.45,"NIST 46.7","NIST 46.7" * 4701300,"MnBr+",0,.14,0,0,1,0,0,0,2 * 1,470,1,130 * 134.842,"NIST 46.7","n.a." * 8931300,"UO2Br+",0,.2,0,0,1,0,0,0,2 * 1,893,1,130 * 349.9318,"NIST 46.7","n.a." * 8911300,"UBr+3",0,1.46,0,0,3,0,0,0,2 * 1,891,1,130 * 317.933,"NEA_2003","n.a." * 2601301,"EuBr2+",0,.62,0,0,1,0,0,0,2 * 1,260,2,130 * 311.772,"NIST 46.7","n.a." * 2601300,"EuBr+2",0,.41,0,0,2,0,0,0,2 * 1,260,1,130 * 231.868,"NIST 46.7","n.a." * 8051300,"YBr+2",0,.46,0,0,2,0,0,0,2 * 1,805,1,130 * 168.814,"NIST 46.7","n.a." * 7501301,"ScBr2+",0,.95,0,0,1,0,0,0,2 * 1,750,2,130 * 204.764,"NIST 46.7","n.a." * 7501300,"ScBr+2",0,.68,0,0,2,0,0,0,2 * 1,750,1,130 * 124.86,"NIST 46.7","n.a." * 2151300,"CsBr (aq)",0,.03,0,0,0,0,0,0,2 * 1,215,1,130 * 212.809,"NIST 46.7","n.a." * 7901301,"SnBr+",0,8.25,0,0,1,0,0,0,4 * 1,790,-2,2,2,330,1,130 * 198.6138,"NIST 46.7","n.a." * 7901302,"SnBr2 (aq)",0,8.79,0,0,0,0,0,0,4 * 1,790,-2,2,2,330,2,130 * 278.5178,"NIST 46.7","n.a." * 6001300,"PbBr+",8,1.7,0,0,1,0,0,0,2 * 1,600,1,130 * 287.104,"NIST 46.7","NIST 46.7" * 6001301,"PbBr2 (aq)",-4,2.6,0,0,0,0,0,0,2 * 1,600,2,130 * 367.008,"NIST 46.7","NIST 46.7" * 8701300,"TlBr (aq)",-12,.91,0,0,0,0,0,0,2 * 1,870,1,130 * 284.287,"NIST 46.7","NIST 46.7" * 8701302,"TlBrCl-1",0,.8165,0,0,-1,0,0,0,3 * 1,870,1,130,1,180 * 319.74,"MTQ3.11","MTQ3.11" * 8703802,"TlIBr-1",0,2.185,0,0,-1,0,0,0,3 * 1,870,1,380,1,130 * 411.1915,"MTQ3.11","MTQ3.11" * 8711300,"TlBr+2",0,12.8,0,0,2,0,0,0,4 * 1,871,-3,2,3,330,1,130 * 284.2868,"NIST 46.6","n.a." * 8711301,"TlBr2+",0,20.71,0,0,1,0,0,0,4 * 1,871,-3,2,3,330,2,130 * 364.1908,"NIST 46.6","n.a." * 8711302,"TlBr3 (aq)",0,27.0244,0,0,0,0,0,0,4 * 1,871,3,130,3,330,-3,2 * 444.0948,"MTQ3.11","MTQ3.11" * 8711303,"TlBr4-1",0,31.1533,0,0,-1,0,0,0,4 * 1,871,4,130,3,330,-3,2 * 523.9988,"MTQ3.11","MTQ3.11" * 9501300,"ZnBr+",1,-.07,0,0,1,0,0,0,2 * 1,950,1,130 * 145.294,"NIST 46.7","NIST 46.7" * 1601300,"CdBr+",-3,2.15,0,0,1,0,0,0,2 * 1,160,1,130 * 192.314,"NIST 46.7","NIST 46.7" * 1601301,"CdBr2 (aq)",-3,3,0,0,0,0,0,0,2 * 1,160,2,130 * 272.218,"NIST 46.7","NIST 46.7" * 3611301,"HgBr+",-81.9,15.77,0,0,1,0,0,0,4 * 1,361,-2,2,2,330,1,130 * 280.4892,"NIST 46.7","NIST 46.7" * 3611302,"HgBr2 (aq)",-127.1,24.29,0,0,0,0,0,0,4 * 1,361,-2,2,2,330,2,130 * 360.3932,"NIST 46.7","NIST 46.7" * 3611303,"HgBr3-1",-138.8,26.67,0,0,-1,0,0,0,4 * 1,361,-2,2,2,330,3,130 * 440.2972,"NIST 46.7","NIST 46.7" * 3611304,"HgBr4-2",-153.7,27.9,0,0,-2,0,0,0,4 * 1,361,-2,2,2,330,4,130 * 520.2012,"NIST 46.7","NIST 46.7" * 3611305,"HgBrCl (aq)",-113.77,22.1811,0,0,0,0,0,0,5 * 1,361,1,130,1,180,2,330,-2,2 * 315.9422,"NIST2.1.1","NIST2.1.1" * 3611306,"HgBrI (aq)",-151.27,27.3133,0,0,0,0,0,0,5 * 1,361,1,130,1,380,2,330,-2,2 * 407.3937,"NIST2.1.1","NIST2.1.1" * 3611307,"HgBrI3-2",0,34.2135,0,0,-2,0,0,0,5 * 1,361,1,130,3,380,2,330,-2,2 * 661.2028,"MTQ3.11","MTQ3.11" * 3611308,"HgBr2I2-2",0,32.3994,0,0,-2,0,0,0,5 * 1,361,2,130,2,380,2,330,-2,2 * 614.2023,"MTQ3.11","MTQ3.11" * 3611309,"HgBr3I-2",0,30.1528,0,0,-2,0,0,0,5 * 1,361,3,130,1,380,2,330,-2,2 * 567.2017,"MTQ3.11","MTQ3.11" * 3613301,"HgBrOH (aq)",0,12.4,0,0,0,0,0,0,4 * 1,361,-1,2,1,330,1,130 * 297.4966,"NIST 46.7","n.a." * 201300,"AgBr (aq)",0,4.6,0,0,0,0,0,0,2 * 1,20,1,130 * 187.7722,"NIST 46.7","n.a." * 201301,"AgBr2-",0,7.5,0,0,-1,0,0,0,2 * 1,20,2,130 * 267.6762,"NIST 46.7","n.a." * 201302,"AgBr3-2",0,8.1,0,0,-2,0,0,0,2 * 1,20,3,130 * 347.5802,"NIST 46.7","n.a." * 5401300,"NiBr+",0,.5,0,0,1,0,0,0,2 * 1,540,1,130 * 138.594,"MTQ3.11","MTQ3.11" * 2111300,"CrBr+2",-56.6,12.36,0,0,2,0,0,0,4 * 1,211,1,130,2,330,-2,2 * 131.9,"NIST 46.7","NIST 46.7" * 1101301,"BeBr+",0,.1,0,0,1,5,0,0,2 * 1,110,1,130 * 88.9162,"NIST 46.7","n.a." * 6003800,"PbI+",0,2,0,0,1,0,0,0,2 * 1,600,1,380 * 334.1045,"NIST 46.7","n.a." * 6003801,"PbI2 (aq)",0,3.2,0,0,0,0,0,0,2 * 1,600,2,380 * 461.009,"NIST 46.7","n.a." * 8703800,"TlI (aq)",0,1.4279,0,0,0,0,0,0,2 * 1,870,1,380 * 331.2875,"MTQ3.11","MTQ3.11" * 8703801,"TlI2-1",0,1.8588,0,0,-1,0,0,0,2 * 1,870,2,380 * 458.192,"MTQ3.11","MTQ3.11" * 8713800,"TlI4-1",0,34.7596,0,0,-1,0,0,0,4 * 1,871,4,380,3,330,-3,2 * 712.0008,"MTQ3.11","MTQ3.11" * 9503800,"ZnI+",-4,-2.0427,0,0,1,0,0,0,2 * 1,950,1,380 * 192.2945,"NIST46.3","NIST46.3" * 9503801,"ZnI2 (aq)",0,-1.69,0,0,0,0,0,0,2 * 1,950,2,380 * 319.199,"MTQ3.11","MTQ3.11" * 1603800,"CdI+",-9.6,2.28,0,0,1,0,0,0,2 * 1,160,1,380 * 239.3145,"NIST 46.7","NIST 46.7" * 1603801,"CdI2 (aq)",-12,3.92,0,0,0,0,0,0,2 * 1,160,2,380 * 366.219,"NIST 46.7","NIST 46.7" * 1153800,"BiI+2",0,4.44,0,0,2,0,0,0,2 * 1,115,1,380 * 335.8844,"NIST 46.7","n.a." * 3903801,"InI2+",-3,3.81,0,0,1,0,0,0,2 * 1,390,2,380 * 368.6268,"NIST 46.7","NIST 46.7" * 3903800,"InI+2",-2,2.39,0,0,2,0,0,0,2 * 1,390,1,380 * 241.7224,"NIST 46.7","NIST 46.7" * 2903800,"GaI+2",0,.55,0,0,2,0,0,0,2 * 1,290,1,380 * 196.6274,"NIST 46.7","n.a." * 6003803,"PbI4-2",0,4.5,0,0,-2,0,0,0,2 * 1,600,4,380 * 714.8075,"NIST 46.7","n.a." * 6003802,"PbI3-",0,3.9,0,0,-1,0,0,0,2 * 1,600,3,380 * 587.9031,"NIST 46.7","n.a." * 3613805,"HgOHI (aq)",0,9.41,0,0,0,0,0,0,4 * 1,361,1,380,1,330,-1,2 * 344.5071,"NIST 46.7","n.a." * 1603803,"CdI4-2",-35,6,0,0,-2,0,0,0,2 * 1,160,4,380 * 620.017,"NIST 46.7","NIST 46.7" * 1603802,"CdI3-",-18,5,0,0,-1,0,0,0,2 * 1,160,3,380 * 493.1126,"NIST 46.7","NIST 46.7" * 5703803,"PdI4-2",0,28.71,0,0,-2,0,0,0,2 * 1,570,4,380 * 614.0376,"NIST 46.7","n.a." * 5703802,"PdI3-",0,26.41,0,0,-1,0,0,0,2 * 1,570,3,380 * 487.1332,"NIST 46.7","n.a." * 5703801,"PdI2 (aq)",0,22.71,0,0,0,0,0,0,2 * 1,570,2,380 * 360.2288,"NIST 46.7","n.a." * 5703800,"PdI+",0,6.49,0,0,1,0,0,0,2 * 1,570,1,380 * 233.3244,"NIST 46.7","n.a." * 2303801,"CuI2-",0,8.9,0,0,-1,0,0,0,2 * 1,230,2,380 * 317.3548,"NIST 46.7","n.a." * 2303800,"CuI (aq)",0,6,0,0,0,0,0,0,2 * 1,230,1,380 * 190.4504,"NIST 46.7","n.a." * 8913800,"UI+3",0,1.25,0,0,3,0,0,0,2 * 1,891,1,380 * 364.9334,"NEA_2003","n.a." * 2603800,"EuI+2",0,.21,0,0,2,0,0,0,2 * 1,260,1,380 * 278.8684,"NIST 46.7","n.a." * 2153800,"CsI (aq)",0,-.03,0,0,0,0,0,0,2 * 1,215,1,380 * 259.8094,"NIST 46.7","n.a." * 6803800,"RbI (aq)",0,.04,0,0,0,0,0,0,2 * 1,680,1,380 * 212.3743,"NIST 46.7","n.a." * 4103800,"KI (aq)",4,-.4,0,0,0,0,0,0,2 * 1,410,1,380 * 166.0064,"NIST 46.7","NIST 46.7" * 3613801,"HgI+",-111.2,19.57,0,0,1,0,0,0,4 * 1,361,-2,2,2,330,1,380 * 327.4897,"NIST 46.7","NIST 46.7" * 3613802,"HgI2 (aq)",-182.7,30.79,0,0,0,0,0,0,4 * 1,361,-2,2,2,330,2,380 * 454.3942,"NIST 46.7","NIST 46.7" * 3613803,"HgI3-1",-194.22,34.57,0,0,-1,0,0,0,4 * 1,361,-2,2,2,330,3,380 * 581.2987,"NIST 46.7","NIST2.1.1" * 3613804,"HgI4-2",-220.7,36.5,0,0,-2,0,0,0,4 * 1,361,-2,2,2,330,4,380 * 708.2032,"NIST 46.7","NIST 46.7" * 203800,"AgI (aq)",0,6.6,0,0,0,0,0,0,2 * 1,20,1,380 * 234.7727,"NIST 46.7","n.a." * 203801,"AgI2-",0,11.7,0,0,-1,0,0,0,2 * 1,20,2,380 * 361.6772,"NIST 46.7","n.a." * 203802,"AgI3-2",-122,12.6,0,0,-2,0,0,0,2 * 1,20,3,380 * 488.5817,"NIST 46.7","NIST 46.7" * 2113800,"CrI+2",0,4.8289,0,0,2,0,0,0,4 * 1,211,1,380,2,330,-2,2 * 178.9005,"MTQ3.11","MTQ3.11" * 3307300,"H2S (aq)",-22,7.02,0,0,0,0,0,0,2 * 1,330,1,730 * 34.0809,"NIST 46.7","NIST 46.7" * 9507301,"Zn4S6-4",0,1.93,0,0,-4,0,0,12,3 * 4,950,6,730,-6,330 * 453.8636,"Luther99","n.a." * 5407300,"NiHS+",0,5.49,0,0,1,0,0,0,2 * 1,540,1,730 * 91.782,"Luther96","n.a." * 2007300,"CoHS+",0,5.2,0,0,1,0,0,0,2 * 1,200,1,730 * 92.0052,"Luther96","n.a." * 2807300,"FeHS+",0,5.62,0,0,1,0,0,0,2 * 1,280,1,730 * 88.919,"Luther96","n.a." * 4707300,"MnHS+",0,5.14,0,0,1,0,0,0,2 * 1,470,1,730 * 88.01,"Luther96","n.a." * 2317301,"Cu2S3-2",0,-2.45,0,0,-2,0,0,6,3 * 2,231,3,730,-3,330 * 223.284,"Luther96","n.a." * 2317300,"CuS(aq)",0,-2.8,0,0,0,0,0,2,3 * 1,231,1,730,-1,330 * 95.61,"Luther96","n.a." * 9507300,"Zn2S3-2",0,.35,0,0,-2,0,0,6,3 * 2,950,3,730,-3,330 * 226.9318,"Luther96","n.a." * 6007300,"Pb(HS)2 (aq)",0,15.27,0,0,0,0,0,0,2 * 1,600,2,730 * 273.346,"MTQ3.11","MTQ3.11" * 6007301,"Pb(HS)3-",0,16.57,0,0,-1,0,0,0,2 * 1,600,3,730 * 306.419,"MTQ3.11","MTQ3.11" * 8707300,"TlHS (aq)",0,2.57,0,0,0,0,0,0,2 * 1,870,1,730 * 237.456,"NIST 46.7","n.a." * 8707301,"Tl2HS+",0,6.18,0,0,1,0,0,0,2 * 2,870,1,730 * 441.839,"NIST 46.7","n.a." * 8707302,"Tl2OH(HS)3-2",0,1.0044,0,0,-2,0,0,0,4 * 2,870,3,730,1,2,-1,330 * 524.9924,"MTQ3.11","MTQ3.11" * 8707303,"Tl2(OH)2(HS)2-2",0,-11.0681,0,0,-2,0,0,0,4 * 2,870,2,730,2,2,-2,330 * 508.9268,"MTQ3.11","MTQ3.11" * 1607300,"CdHS+",0,8.01,0,0,1,0,0,0,2 * 1,160,1,730 * 145.483,"NIST 46.7","n.a." * 1607301,"Cd(HS)2 (aq)",0,15.31,0,0,0,0,0,0,2 * 1,160,2,730 * 178.556,"NIST 46.7","n.a." * 1607302,"Cd(HS)3-",0,17.11,0,0,-1,0,0,0,2 * 1,160,3,730 * 211.629,"NIST 46.7","n.a." * 1607303,"Cd(HS)4-2",0,19.31,0,0,-2,0,0,0,2 * 1,160,4,730 * 244.702,"NIST 46.7","n.a." * 3617300,"HgS2-2",0,29.38,0,0,-2,0,0,0,4 * 1,361,-2,2,0,330,2,730 * 264.7154,"NIST 46.7","n.a." * 3617301,"Hg(HS)2 (aq)",0,44.58,0,0,0,0,0,0,4 * 1,361,-2,2,2,330,2,730 * 266.7312,"NIST 46.7","n.a." * 3617302,"HgHS2-",0,38.09,0,0,-1,0,0,0,4 * 1,361,-2,2,1,330,2,730 * 265.7233,"NIST 46.7","n.a." * 207300,"AgHS (aq)",0,13.82,0,0,0,0,0,0,2 * 1,20,1,730 * 140.9412,"NIST 46.7","n.a." * 207301,"Ag(HS)2-",0,17.91,0,0,-1,0,0,0,2 * 1,20,2,730 * 174.0142,"NIST 46.7","n.a." * 207306,"AgHS2-2",0,8.59,0,0,-2,0,0,0,3 * 1,20,2,730,-1,330 * 173.004,"NIST 46.7","n.a." * 207305,"AgS-",0,5.3,0,0,-1,0,0,0,3 * 1,20,1,730,-1,330 * 139.932,"NIST 46.7","NIST 46.7" * 607301,"AsS(OH)HS-",0,18.038,0,0,-1,0,0,0,4 * 1,60,2,730,1,330,-2,2 * 157.0651,"NordArch02","n.a." * 607300,"As3S4(HS)-",0,72.314,0,0,-1,0,0,0,4 * 3,60,6,730,5,330,-9,2 * 419.1654,"NordArch02","n.a." * 7317300,"S2-2",46.4,-11.7828,0,0,-2,0,0,0,3 * 1,730,1,731,-1,330 * 64.1311,"NIST2.1.1","NIST2.1.1" * 7317301,"S3-2",42.2,-10.7667,0,0,-2,0,0,0,3 * 1,730,2,731,-1,330 * 96.1971,"NIST2.1.1","NIST2.1.1" * 7317302,"S4-2",39.3,-9.9608,0,0,-2,0,0,0,3 * 1,730,3,731,-1,330 * 128.2631,"NIST2.1.1","NIST2.1.1" * 7317303,"S5-2",37.6,-9.3651,0,0,-2,0,0,0,3 * 1,730,4,731,-1,330 * 160.3291,"NIST2.1.1","NIST2.1.1" * 7317304,"S6-2",0,-9.881,0,0,-2,0,0,0,3 * 1,730,5,731,-1,330 * 192.3951,"MTQ3.11","MTQ3.11" * 7407300,"Sb2S4-2",-321.7801,49.3886,0,0,-2,0,0,0,4 * 2,740,4,730,2,330,-6,2 * 371.756,"NIST2.1.1","NIST2.1.1" * 2307300,"Cu(S4)2-3",0,3.39,0,0,-3,23,0,0,4 * 1,230,2,730,6,731,-2,330 * 320.0722,"MTQ3.11","MTQ3.11" * 2307301,"CuS4S5-3",0,2.66,0,0,-3,25,0,0,4 * 1,230,2,730,7,731,-2,330 * 352.1382,"MTQ3.11","MTQ3.11" * 207302,"Ag(S4)2-3",0,.991,0,0,-3,22,0,0,4 * 1,20,2,730,-2,330,6,731 * 364.3944,"MTQ3.11","MTQ3.11" * 207303,"AgS4S5-3",0,.68,0,0,-3,24,0,0,4 * 1,20,2,730,-2,330,7,731 * 396.4604,"MTQ3.11","MTQ3.11" * 207304,"Ag(HS)S4-2",0,10.431,0,0,-2,15,0,0,4 * 1,20,2,730,-1,330,3,731 * 269.2043,"MTQ3.11","MTQ3.11" * 3907301,"In(HS)2+",0,18.02,0,0,1,0,0,0,2 * 1,390,2,730 * 180.962,"NIST 46.7","n.a." * 3907300,"InHS+2",0,11.61,0,0,2,0,0,0,2 * 1,390,1,730 * 147.89,"NIST 46.7","n.a." * 9507305,"ZnS (aq)",0,-1.43,0,0,0,0,0,2,3 * 1,950,1,730,-1,330 * 97.4339,"Luther96","n.a." * 3307320,"HSO4-",22,1.99,0,0,-1,4.5,0,-1,2 * 1,330,1,732 * 97.0709,"NIST 46.7","NIST 46.7" * 6007320,"PbSO4 (aq)",0,2.69,0,0,0,0,0,0,2 * 1,600,1,732 * 303.263,"NIST 46.7","n.a." * 6007321,"Pb(SO4)2-2",0,3.47,0,0,-2,0,0,0,2 * 1,600,2,732 * 399.326,"SCD3.02 (1960 RKa)","MTQ3.11" * 8067321,"Yb(SO4)2-",29,5.2,0,0,-1,0,0,0,2 * 1,806,2,732 * 365.1632,"NIST 46.7","NIST 46.7" * 8067320,"YbSO4+",19,3.55,0,0,1,0,0,0,2 * 1,806,1,732 * 269.1016,"NIST 46.7","NIST 46.7" * 307320,"AlSO4+",9,3.84,0,0,1,4.5,0,0,2 * 1,30,1,732 * 123.0445,"Xiao02","Ball80" * 307321,"Al(SO4)2-",11.9,5.58,0,0,-1,4.5,0,0,2 * 1,30,2,732 * 219.1075,"Xiao02","Nord90" * 8707320,"TlSO4-",-8,1.37,0,0,-1,0,0,0,2 * 1,870,1,732 * 300.446,"NIST 46.7","NIST 46.7" * 9507320,"ZnSO4 (aq)",6.2,2.34,0,0,0,0,0,0,2 * 1,950,1,732 * 161.453,"NIST 46.7","NIST 46.7" * 9507321,"Zn(SO4)2-2",0,3.28,0,0,-2,0,0,0,2 * 1,950,2,732 * 257.516,"MTQ3.11","n.a." * 1607320,"CdSO4 (aq)",8.7,2.37,0,0,0,0,0,0,2 * 1,160,1,732 * 208.473,"NIST 46.7","NIST 46.7" * 1607321,"Cd(SO4)2-2",0,3.5,0,0,-2,0,0,0,2 * 1,160,2,732 * 304.5226,"ParkApp99","n.a." * 3617321,"Hg(SO4)2-2",0,9.64,0,0,-2,0,0,0,4 * 1,361,2,732,2,330,-2,2 * 392.7186,"NIST 46.7","n.a." * 3617320,"HgSO4 (aq)",0,8.63,0,0,0,0,0,0,4 * 1,361,-2,2,2,330,1,732 * 296.6482,"NIST 46.7","n.a." * 2317320,"CuSO4 (aq)",8.7,2.36,0,0,0,0,0,0,2 * 1,231,1,732 * 159.609,"NIST 46.7","NIST 46.7" * 2317321,"CuHSO4+",0,2.34,0,0,1,0,0,0,3 * 1,231,1,732,1,330 * 160.6156,"Cif2002","n.a." * 207320,"AgSO4-",6.2,1.3,0,0,-1,0,0,0,2 * 1,20,1,732 * 203.9312,"NIST 46.7","NIST 46.7" * 5407320,"NiSO4 (aq)",5.8,2.3,0,0,0,0,0,0,2 * 1,540,1,732 * 154.753,"NIST 46.7","NIST 46.7" * 5407321,"Ni(SO4)2-2",0,.82,0,0,-2,0,0,0,2 * 1,540,2,732 * 250.816,"SCD3.02 (1978 BLa)","n.a." * 2007320,"CoSO4 (aq)",6.2,2.3,0,0,0,0,0,0,2 * 1,200,1,732 * 154.9962,"NIST 46.7","NIST 46.7" * 3107321,"Gd(SO4)2-",30,5.2,0,0,-1,0,0,0,2 * 1,310,2,732 * 349.3732,"NIST 46.7","NIST 46.7" * 3107320,"GdSO4+",20,3.66,0,0,1,0,0,0,2 * 1,310,1,732 * 253.3116,"NIST 46.7","NIST 46.7" * 2807320,"FeSO4 (aq)",8,2.39,0,0,0,0,0,0,2 * 1,280,1,732 * 151.91,"NIST 46.7","NIST 46.7" * 2817320,"FeSO4+",25,4.25,0,0,1,5,0,0,2 * 1,281,1,732 * 151.91,"NIST 46.7","NIST 46.7" * 2817321,"Fe(SO4)2-",19.2,5.38,0,0,-1,0,0,0,2 * 1,281,2,732 * 247.973,"Nord90","Nord90" * 4707320,"MnSO4 (aq)",8.7,2.25,0,0,0,0,0,0,2 * 1,470,1,732 * 151.001,"NIST 46.7","NIST 46.7" * 2117320,"CrSO4+",-98.62,12.9371,0,0,1,0,0,0,4 * 1,211,-2,2,2,330,1,732 * 148.059,"NIST46.3","NIST46.3" * 2117321,"CrOHSO4 (aq)",0,8.2871,0,0,0,0,0,0,4 * 1,211,-1,2,1,330,1,732 * 165.0664,"NIST46.3","MTQ3.11" * 2117323,"Cr2(OH)2SO4+2",0,16.155,0,0,2,0,0,0,4 * 2,211,1,732,2,330,-2,2 * 234.0698,"MTQ3.11","MTQ3.11" * 2117324,"Cr2(OH)2(SO4)2 (aq)",0,17.9288,0,0,0,0,0,0,4 * 2,211,2,732,2,330,-2,2 * 330.1328,"MTQ3.11","MTQ3.11" * 8917320,"USO4+2",8,6.58,0,0,2,0,0,0,2 * 1,891,1,732 * 334.0919,"NEA_2003","NEA_2003" * 8917321,"U(SO4)2 (aq)",32.7,10.51,0,0,0,0,0,0,2 * 1,891,2,732 * 430.1549,"NEA_2003","NEA_2003" * 8937320,"UO2SO4 (aq)",19.5,3.15,0,0,0,0,0,0,2 * 1,893,1,732 * 366.0907,"NEA_2003","NEA_2003" * 8937321,"UO2(SO4)2-2",35.1,4.14,0,0,-2,0,0,0,2 * 1,893,2,732 * 462.1537,"NEA_2003","NEA_2003" * 5937320,"PuO2SO4 (aq)",15,2.4,0,0,0,0,0,0,2 * 1,593,1,732 * 372.0516,"Runde02","NIST 46.7" * 5917321,"Pu(SO4)2 (aq)",0,7.7,0,0,0,0,0,0,2 * 1,591,2,732 * 436.1232,"Runde02","n.a." * 5917320,"PuSO4+2",0,5.5,0,0,2,0,0,0,2 * 1,591,1,732 * 340.0616,"Runde02","n.a." * 9017320,"VSO4+",0,2.68,0,0,1,0,0,0,2 * 1,901,1,732 * 147.0055,"NIST 46.7","n.a." * 9027320,"VOSO4 (aq)",17,2.44,0,0,0,0,0,0,2 * 1,902,1,732 * 163.0049,"NIST 46.7","NIST 46.7" * 9037320,"VO2SO4-",0,17.27,0,0,-1,0,0,0,4 * 1,903,1,732,3,330,-2,2 * 179.0043,"NIST 46.7","n.a." * 5707320,"PdSO4 (aq)",0,2.2,0,0,0,0,0,0,2 * 1,570,1,732 * 202.4816,"NIST 46.7","n.a." * 5537321,"NpO2(SO4)2-2",25,4.7,0,0,-2,0,0,0,2 * 1,553,2,732 * 461.1132,"NIST 46.7","NIST 46.7" * 5537320,"NpO2SO4 (aq)",16,3.27,0,0,0,0,0,0,2 * 1,553,1,732 * 365.0516,"NIST 46.7","NIST 46.7" * 1257321,"Bk(SO4)2-",0,5.6,0,0,-1,0,0,0,2 * 1,125,2,732 * 439.1232,"NIST 46.7","n.a." * 1357321,"Ce(SO4)2-",33,5.1,0,0,-1,0,0,0,2 * 1,135,2,732 * 332.2392,"NIST 46.7","NIST 46.7" * 1357320,"CeSO4+",19,3.64,0,0,1,0,0,0,2 * 1,135,1,732 * 236.1776,"NIST 46.7","NIST 46.7" * 1107321,"BeSO4 (aq)",29,2.19,0,0,0,0,0,0,2 * 1,110,1,732 * 105.0752,"NIST 46.7","NIST 46.7" * 1107322,"Be(SO4)2-2",0,2.59,0,0,-2,0,0,0,2 * 1,110,2,732 * 201.1382,"NIST 46.7","n.a." * 4607320,"MgSO4 (aq)",5.8,2.26,0,0,0,0,0,0,2 * 1,460,1,732 * 120.368,"NIST 46.7","NIST 46.7" * 1507320,"CaSO4 (aq)",7.1,2.36,0,0,0,0,0,0,2 * 1,150,1,732 * 136.141,"NIST 46.7","NIST 46.7" * 8007321,"SrSO4 (aq)",8,2.3,0,0,0,0,0,0,2 * 1,800,1,732 * 183.683,"NIST 46.7","NIST 46.7" * 4407320,"LiSO4-",0,.64,0,0,-1,5,0,0,2 * 1,440,1,732 * 103.004,"NIST 46.7","NIST 46.7" * 5007320,"NaSO4-",1,.74,0,0,-1,5.4,0,0,2 * 1,500,1,732 * 119.0528,"NIST 46.7","NIST 46.7" * 4107320,"KSO4-",4.1,.85,0,0,-1,5.4,0,0,2 * 1,410,1,732 * 135.1613,"NIST 46.7","NIST 46.7" * 7707320,"H4SiO4SO4-2",2,-.54,0,0,-2,0,0,0,2 * 1,770,1,732 * 192.1771,"NIST 46.7","NIST 46.7" * 3907321,"In(SO4)2-",0,4.2,0,0,-1,0,0,0,2 * 1,390,2,732 * 306.9412,"NIST 46.7","n.a." * 3907320,"InSO4+",0,3.03,0,0,1,0,0,0,2 * 1,390,1,732 * 210.8796,"NIST 46.7","n.a." * 1707321,"Cf(SO4)2-",0,5.6,0,0,-1,0,0,0,2 * 1,170,2,732 * 443.1232,"NIST 46.7","n.a." * 1707320,"CfSO4+",20,3.73,0,0,1,0,0,0,2 * 1,170,1,732 * 347.0616,"NIST 46.7","NIST 46.7" * 8057320,"YSO4+",20,3.48,0,0,1,0,0,0,2 * 1,805,1,732 * 184.9716,"NIST 46.7","NIST 46.7" * 1257320,"BkSO4+",0,3.71,0,0,1,0,0,0,2 * 1,125,1,732 * 343.0616,"NIST 46.7","n.a." * 1907321,"Cm(SO4)2-",0,4.86,0,0,-1,0,0,0,2 * 1,190,2,732 * 439.1232,"NIST 46.7","n.a." * 1907320,"CmSO4+",16,3.48,0,0,1,0,0,0,2 * 1,190,1,732 * 343.0616,"NIST 46.7","NIST 46.7" * 457321,"Am(SO4)2-",0,5.4,0,0,-1,0,0,0,2 * 1,45,2,732 * 435.1232,"NIST 46.7","n.a." * 457320,"AmSO4+",16,3.8,0,0,1,0,0,0,2 * 1,45,1,732 * 339.0616,"NIST 46.7","NIST 46.7" * 5907320,"PuSO4+",16,1.9,0,0,1,0,0,0,2 * 1,590,1,732 * 340.0616,"Runde02","NIST 46.6" * 4507321,"Lu(SO4)2-",25,5.2,0,0,-1,0,0,0,2 * 1,450,2,732 * 367.0902,"NIST 46.7","NIST 46.7" * 4507320,"LuSO4+",19,3.52,0,0,1,0,0,0,2 * 1,450,1,732 * 271.0286,"NIST 46.7","NIST 46.7" * 8807321,"Tm(SO4)2-",29,5.1,0,0,-1,0,0,0,2 * 1,880,2,732 * 361.0572,"NIST 46.7","NIST 46.7" * 8807320,"TmSO4+",20,3.59,0,0,1,0,0,0,2 * 1,880,1,732 * 264.9956,"NIST 46.7","NIST 46.7" * 2507321,"Er(SO4)2-",33,5.1,0,0,-1,0,0,0,2 * 1,250,2,732 * 359.3822,"NIST 46.7","NIST 46.7" * 2507320,"ErSO4+",20,3.59,0,0,1,0,0,0,2 * 1,250,1,732 * 263.3206,"NIST 46.7","NIST 46.7" * 3707321,"Ho(SO4)2-",37,4.9,0,0,-1,0,0,0,2 * 1,370,2,732 * 357.0532,"NIST 46.7","NIST 46.7" * 3707320,"HoSO4+",20,3.59,0,0,1,0,0,0,2 * 1,370,1,732 * 260.9916,"NIST 46.7","NIST 46.7" * 2407321,"Dy(SO4)2-",41,4.8,0,0,-1,0,0,0,2 * 1,240,2,732 * 354.6232,"NIST 46.7","NIST 46.7" * 2407320,"DySO4+",20,3.61,0,0,1,0,0,0,2 * 1,240,1,732 * 258.5616,"NIST 46.7","NIST 46.7" * 8017321,"Tb(SO4)2-",32,5.1,0,0,-1,0,0,0,2 * 1,801,2,732 * 351.0482,"NIST 46.7","NIST 46.7" * 8017320,"TbSO4+",19,3.64,0,0,1,0,0,0,2 * 1,801,1,732 * 254.9866,"NIST 46.7","NIST 46.7" * 2607321,"Eu(SO4)2-",29,5.4,0,0,-1,0,0,0,2 * 1,260,2,732 * 344.0872,"NIST 46.7","NIST 46.7" * 2607320,"EuSO4+",20,3.67,0,0,1,0,0,0,2 * 1,260,1,732 * 248.0256,"NIST 46.7","NIST 46.7" * 7807321,"Sm(SO4)2-",27,5.1,0,0,-1,0,0,0,2 * 1,780,2,732 * 342.4832,"NIST 46.7","NIST 46.7" * 7807320,"SmSO4+",20,3.67,0,0,1,0,0,0,2 * 1,780,1,732 * 246.4216,"NIST 46.7","NIST 46.7" * 5207321,"Nd(SO4)2-",35,5.1,0,0,-1,0,0,0,2 * 1,520,2,732 * 336.3632,"NIST 46.7","NIST 46.7" * 5207320,"NdSO4+",20,3.66,0,0,1,0,0,0,2 * 1,520,1,732 * 240.3016,"NIST 46.7","NIST 46.7" * 5857321,"Pr(SO4)2-",43.5,4.9,0,0,-1,0,0,0,2 * 1,585,2,732 * 333.0312,"NIST 46.7","NIST 46.7" * 5857320,"PrSO4+",19,3.64,0,0,1,0,0,0,2 * 1,585,1,732 * 236.9696,"NIST 46.7","NIST 46.7" * 4207321,"La(SO4)2-",35,5.3,0,0,-1,0,0,0,2 * 1,420,2,732 * 331.0292,"NIST 46.7","NIST 46.7" * 4207320,"LaSO4+",18,3.64,0,0,1,0,0,0,2 * 1,420,1,732 * 234.9676,"NIST 46.7","NIST 46.7" * 8057321,"Y(SO4)2-",29,5.2,0,0,-1,0,0,0,2 * 1,805,2,732 * 281.0332,"NIST 46.7","NIST 46.7" * 7507321,"Sc(SO4)2-",54,5.6,0,0,-1,0,0,0,2 * 1,750,2,732 * 237.0792,"NIST 46.7","NIST 46.7" * 7507320,"ScSO4+",31,4.18,0,0,1,0,0,0,2 * 1,750,1,732 * 141.0176,"NIST 46.7","NIST 46.7" * 1007320,"BaSO4 (aq)",0,2.13,0,0,0,0,0,0,2 * 1,100,1,732 * 233.4016,"NIST 46.7","n.a." * 1107320,"Be(SO4)3-4",0,2.08,0,0,-4,0,0,0,2 * 1,110,3,732 * 297.197,"NIST 46.7","n.a." * 4907320,"NH4SO4-",0,1.03,0,0,-1,0,0,0,2 * 1,490,1,732 * 114.1002,"NIST 46.7","n.a." * 2157320,"CsSO4-",0,1.04,0,0,-1,0,0,0,2 * 1,215,1,732 * 228.9666,"NIST 46.7","n.a." * 6807320,"RbSO4-",0,.94,0,0,-1,0,0,0,2 * 1,680,1,732 * 181.5315,"NIST 46.7","n.a." * 2817331,"Fe(S2O3)2-",0,4.75,0,0,-1,0,0,0,2 * 1,281,2,733 * 280.087,"NIST 46.7","n.a." * 3617331,"Hg(S2O3)3-4",-200.7,36.76,0,0,-4,0,0,0,4 * 1,361,3,733,2,330,-1,2 * 554.9707,"NIST 46.7","NIST 46.7" * 3617330,"Hg(S2O3)2-2",0,35.39,0,0,-2,0,0,0,4 * 1,361,2,733,2,330,-1,2 * 442.8507,"NIST 46.7","n.a." * 1607332,"Cd(S2O3)3-4",0,6.4,0,0,-4,0,0,0,2 * 1,160,3,733 * 448.7594,"NIST 46.7","n.a." * 1607331,"Cd(S2O3)2-2",-6.2,6.3,0,0,-2,0,0,0,2 * 1,160,2,733 * 336.6394,"NIST 46.7","NIST 46.7" * 1607330,"CdS2O3 (aq)",5.4,3.92,0,0,0,0,0,0,2 * 1,160,1,733 * 224.5194,"NIST 46.7","NIST 46.7" * 9507330,"ZnS2O3 (aq)",12,2.35,0,0,0,0,0,0,2 * 1,950,1,733 * 177.4899,"NIST 46.7","NIST 46.7" * 5707330,"Pd(S2O3)4-6",0,32.84,0,0,-6,0,0,0,2 * 1,570,4,733 * 554.9,"NIST 46.7","n.a." * 207332,"Ag(S2O3)3-5",0,11.57,0,0,-5,0,0,0,2 * 1,20,3,733 * 444.228,"NIST 46.7","n.a." * 207331,"Ag(S2O3)2-3",-61.9,13.7,0,0,-3,0,0,0,2 * 1,20,2,733 * 332.108,"NIST 46.7","NIST 46.7" * 207330,"AgS2O3-",-56.9,10.03,0,0,-1,0,0,0,2 * 1,20,1,733 * 219.988,"NIST 46.7","NIST 46.7" * 2817330,"FeS2O3+",0,3.27,0,0,1,0,0,0,2 * 1,281,1,733 * 167.967,"NIST 46.7","n.a." * 5407330,"NiS2O3 (aq)",1,2.06,0,0,0,0,0,0,2 * 1,540,1,733 * 170.83,"NIST 46.7","NIST 46.7" * 2007330,"CoS2O3 (aq)",2,2.05,0,0,0,0,0,0,2 * 1,200,1,733 * 171.0532,"NIST 46.7","NIST 46.7" * 4707330,"MnS2O3 (aq)",-2,1.95,0,0,0,0,0,0,2 * 1,470,1,733 * 167.058,"NIST 46.7","NIST 46.7" * 8937330,"UO2S2O3 (aq)",0,2.8,0,0,0,0,0,0,2 * 1,893,1,733 * 382.1478,"NIST 46.7","n.a." * 4207330,"LaS2O3+",0,2.99,0,0,1,0,0,0,2 * 1,420,1,733 * 251.026,"NIST 46.7","n.a." * 1007330,"BaS2O3 (aq)",11,2.27,0,0,0,0,0,0,2 * 1,100,1,733 * 249.46,"NIST 46.7","NIST 46.7" * 8007330,"SrS2O3 (aq)",0,2.04,0,0,0,0,0,0,2 * 1,800,1,733 * 199.74,"NIST 46.7","n.a." * 1507330,"CaS2O3 (aq)",2.6,1.98,0,0,0,0,0,0,2 * 1,150,1,733 * 152.2,"NIST 46.7","NIST 46.7" * 4607330,"MgS2O3 (aq)",1.6,1.82,0,0,0,0,0,0,2 * 1,460,1,733 * 136.432,"NIST 46.7","NIST 46.7" * 4107330,"KS2O3-",8.11,.96,0,0,-1,0,0,0,2 * 1,410,1,733 * 151.222,"NIST 46.7","NIST 46.7" * 5007330,"NaS2O3-",4.56,.63,0,0,-1,0,0,0,2 * 1,500,1,733 * 135.1098,"NIST 46.7","NIST 46.7" * 7333301,"H2S2O3 (aq)",0,2.2,0,0,0,0,0,0,2 * 1,733,2,330 * 114.136,"NIST 46.7","n.a." * 7333300,"HS2O3-",0,1.6,0,0,-1,0,0,0,2 * 1,733,1,330 * 113.128,"NIST 46.7","n.a." * 3617341,"Hg(SO3)3-4",0,30.66,0,0,-4,0,0,0,4 * 1,361,3,734,2,330,-1,2 * 458.7967,"NIST 46.7","n.a." * 3617340,"Hg(SO3)2-2",-122.7,29.62,0,0,-2,0,0,0,4 * 1,361,2,734,2,330,-1,2 * 378.7347,"NIST 46.7","NIST 46.7" * 1607341,"Cd(SO3)2-2",0,5.02,0,0,-2,0,0,0,2 * 1,160,2,734 * 272.5234,"NIST 46.7","n.a." * 1607340,"CdSO3 (aq)",0,3.29,0,0,0,0,0,0,2 * 1,160,1,734 * 192.4614,"NIST 46.7","n.a." * 5707340,"Pd(SO3)4-6",0,27.1,0,0,-6,0,0,0,2 * 1,570,4,734 * 426.668,"NIST 46.7","n.a." * 207342,"Ag(SO3)3-5",0,9,0,0,-5,0,0,0,2 * 1,20,3,734 * 348.054,"NIST 46.7","n.a." * 207341,"Ag(SO3)2-3",0,8.68,0,0,-3,0,0,0,2 * 1,20,2,734 * 267.992,"NIST 46.7","n.a." * 207340,"AgSO3-",0,5.6,0,0,-1,0,0,0,2 * 1,20,1,734 * 187.93,"NIST 46.7","n.a." * 1357340,"CeSO3+",0,8.04,0,0,1,0,0,0,2 * 1,135,1,734 * 220.178,"NIST 46.7","n.a." * 2307341,"Cu(SO3)2-3",0,8.7,0,0,-3,0,0,0,2 * 1,230,2,734 * 223.67,"NIST 46.7","n.a." * 2307340,"CuSO3-",0,8.26,0,0,-1,0,0,0,2 * 1,230,1,734 * 143.608,"NIST 46.7","n.a." * 2817346,"FeOHSO3 (aq)",0,6.18,0,0,0,0,0,0,4 * 1,281,1,734,-1,330,1,2 * 152.9163,"NIST 46.7","n.a." * 2817340,"FeSO3+",0,8.22,0,0,1,0,0,0,2 * 1,281,1,734 * 135.909,"NIST 46.7","n.a." * 2317340,"CuSO3 (aq)",0,5.39,0,0,0,0,0,0,2 * 1,231,1,734 * 143.608,"NIST 46.7","n.a." * 5407340,"NiSO3 (aq)",0,2.88,0,0,0,0,0,0,2 * 1,540,1,734 * 138.772,"NIST 46.7","n.a." * 2007340,"CoSO3 (aq)",0,3.08,0,0,0,0,0,0,2 * 1,200,1,734 * 138.9952,"NIST 46.7","n.a." * 4707340,"MnSO3 (aq)",0,3,0,0,0,0,0,0,2 * 1,470,1,734 * 135,"NIST 46.7","n.a." * 8937340,"UO2SO3 (aq)",0,6.7,0,0,0,0,0,0,2 * 1,893,1,734 * 350.0898,"NIST 46.7","n.a." * 1507340,"CaSO3 (aq)",0,2.62,0,0,0,0,0,0,2 * 1,150,1,734 * 120.142,"NIST 46.7","n.a." * 4607340,"MgSO3 (aq)",0,2.36,0,0,0,0,0,0,2 * 1,460,1,734 * 104.374,"NIST 46.7","n.a." * 4107340,"KSO3-",0,.63,0,0,-1,0,0,0,2 * 1,410,1,734 * 119.164,"NIST 46.7","n.a." * 5007340,"NaSO3-",0,.83,0,0,-1,0,0,0,2 * 1,500,1,734 * 103.0518,"NIST 46.7","n.a." * 7343302,"S2O5-2",11.2,15.87,0,0,-2,0,0,0,3 * 2,734,2,330,-1,2 * 144.1247,"NIST 46.7","NIST 46.7" * 7343301,"H2SO3 (aq)",21.4,9.04,0,0,0,0,0,0,2 * 1,734,2,330 * 82.078,"NIST 46.7","NIST 46.7" * 7343300,"HSO3-",3.6,7.19,0,0,-1,0,0,0,2 * 1,734,1,330 * 81.07,"NIST 46.7","NIST 46.7" * 3307600,"H2Se",3.3,3.89,0,0,0,0,0,0,2 * 1,760,1,330 * 80.9679,"NIST46.3","NIST2.1.1" * 207600,"Ag2Se",0,34.911,0,0,0,0,0,0,4 * 2,20,0,2,-1,330,1,760 * 294.6885,"NIST46.3","MTQ3.11" * 207601,"AgOH(Se)2-4",0,-20.509,0,0,-4,0,0,0,4 * 1,20,1,2,-3,330,2,760 * 282.7798,"NIST46.3","MTQ3.11" * 4707600,"MnSe (aq)",0,-5.385,0,0,0,0,0,0,4 * 1,470,0,2,-1,330,1,760 * 133.8901,"NIST46.3","MTQ3.11" * 3307611,"SeO3-2",5.02,-8.4,0,0,-2,0,0,0,2 * 1,761,-1,330 * 126.9521,"NIST 46.7","NIST 46.7" * 3307610,"H2SeO3 (aq)",6.2,2.63,0,0,0,0,0,0,2 * 1,761,1,330 * 128.9679,"NIST 46.7","NIST 46.7" * 3617610,"Hg(SeO3)2-2",0,2.71,0,0,-2,0,0,0,3 * 1,361,2,761,-2,2 * 454.5194,"NIST 46.7","n.a." * 1607610,"Cd(SeO3)2-2",0,-10.88,0,0,-2,0,0,0,3 * 1,160,2,761,-2,330 * 366.3142,"NIST 46.7","n.a." * 207610,"AgSeO3-1",0,-5.59,0,0,-1,0,0,0,3 * 1,20,1,761,-1,330 * 234.8203,"NIST 46.7","n.a." * 207611,"Ag(SeO3)2-3",0,-13.04,0,0,-3,0,0,0,3 * 1,20,2,761,-2,330 * 361.7724,"NIST 46.7","n.a." * 2817610,"FeHSeO3+2",25,3.42,0,0,2,0,0,0,2 * 1,281,1,761 * 183.807,"NIST 46.7","NIST 46.7" * 3307620,"HSeO4-1",23,1.7,0,0,-1,0,0,0,2 * 1,762,1,330 * 143.9579,"NIST 46.7","NIST 46.7" * 1507620,"CaSeO4 (aq)",0,2,0,0,0,0,0,0,2 * 1,150,1,762 * 183.04,"NIST 46.7","n.a." * 7507621,"Sc(SeO4)2-",0,3.72,0,0,-1,0,0,0,2 * 1,750,2,762 * 330.876,"NIST 46.7","n.a." * 7507620,"ScSeO4+",-8,2.91,0,0,1,0,0,0,2 * 1,750,1,762 * 187.916,"NIST 46.7","NIST 46.7" * 9507620,"ZnSeO4 (aq)",0,2.19,0,0,0,0,0,0,2 * 1,950,1,762 * 208.34,"NIST 46.7","n.a." * 9507621,"Zn(SeO4)2-2",0,2.2,0,0,-2,0,0,0,2 * 1,950,2,762 * 351.29,"NIST 46.7","n.a." * 1607620,"CdSeO4 (aq)",0,2.27,0,0,0,0,0,0,2 * 1,160,1,762 * 255.36,"NIST 46.7","n.a." * 5407620,"NiSeO4 (aq)",14,2.67,0,0,0,0,0,0,2 * 1,540,1,762 * 201.64,"NIST 46.7","NIST 46.7" * 2007621,"CoSeO4 (aq)",12,2.7,0,0,0,0,0,0,2 * 1,200,1,762 * 201.8832,"NIST 46.7","NIST 46.7" * 4707620,"MnSeO4 (aq)",14,2.43,0,0,0,0,0,0,2 * 1,470,1,762 * 197.888,"NIST 46.7","NIST 46.7" * 1604903,"Cd(NH3)4+2",159.1,-30.26,0,0,2,0,0,0,3 * 1,160,4,490,-4,330 * 180.5218,"NIST 46.7","NIST 46.7" * 1604902,"Cd(NH3)3+2",118,-21.83,0,0,2,0,0,0,3 * 1,160,3,490,-3,330 * 163.4912,"NIST 46.7","NIST 46.7" * 1604901,"Cd(NH3)2+2",77,-13.93,0,0,2,0,0,0,3 * 1,160,2,490,-2,330 * 146.4606,"NIST 46.7","NIST 46.7" * 1604900,"CdNH3+2",40,-6.69,0,0,2,0,0,0,3 * 1,160,1,490,-1,330 * 129.43,"NIST 46.7","NIST 46.7" * 9504903,"Zn(NH3)4+2",146.1,-28.09,0,0,2,0,0,0,3 * 1,950,4,490,-4,330 * 133.4923,"NIST 46.7","NIST 46.7" * 9504902,"Zn(NH3)3+2",116,-20.87,0,0,2,0,0,0,3 * 1,950,3,490,-3,330 * 116.4617,"NIST 46.7","NIST 46.7" * 9504901,"Zn(NH3)2+2",81,-13.99,0,0,2,0,0,0,3 * 1,950,2,490,-2,330 * 99.4311,"NIST 46.7","NIST 46.7" * 9504900,"ZnNH3+2",42,-7.03,0,0,2,0,0,0,3 * 1,950,1,490,-1,330 * 82.4005,"NIST 46.7","NIST 46.7" * 5704903,"Pd(NH3)4+2",0,-4.18,0,0,2,0,0,0,3 * 1,570,4,490,-4,330 * 174.5424,"NIST 46.7","n.a." * 5704902,"Pd(NH3)3+2",0,-1.73,0,0,2,0,0,0,3 * 1,570,3,490,-3,330 * 157.5118,"NIST 46.7","n.a." * 5704901,"Pd(NH3)2+2",0,.01,0,0,2,0,0,0,3 * 1,570,2,490,-2,330 * 140.4812,"NIST 46.7","n.a." * 5704900,"PdNH3+2",0,.36,0,0,2,0,0,0,3 * 1,570,1,490,-1,330 * 123.4506,"NIST 46.7","n.a." * 2304900,"Cu(NH3)2+",0,.68,0,0,1,0,0,0,3 * 1,230,2,490,-2,330 * 97.6072,"NIST 46.7","n.a." * 2114903,"Cr(NH3)2+3",0,-4.54,0,0,3,0,0,0,3 * 1,211,2,490,-2,2 * 86.0576,"NIST 46.6","n.a." * 2114902,"CrNH3+3",0,5,0,0,3,0,0,0,4 * 1,211,1,490,1,330,-2,2 * 69.027,"NIST 46.6","n.a." * 2314903,"Cu(NH3)4+2",121.4,-24.68,0,0,2,0,0,0,3 * 1,231,4,490,-4,330 * 131.6684,"NIST 46.7","NIST 46.7" * 2314902,"Cu(NH3)3+2",93.7,-17.53,0,0,2,0,0,0,3 * 1,231,3,490,-3,330 * 114.6378,"NIST 46.7","NIST 46.7" * 2314900,"Cu(NH3)2+2",61.8,-11.09,0,0,2,0,0,0,3 * 1,231,2,490,-2,330 * 97.6072,"NIST 46.7","NIST 46.7" * 5404905,"Ni(NH3)6+2",217.5,-47.17,0,0,2,0,0,0,3 * 1,540,6,490,-6,330 * 160.8936,"NIST 46.7","NIST 46.7" * 5404904,"Ni(NH3)5+2",183.1,-37.89,0,0,2,0,0,0,3 * 1,540,5,490,-5,330 * 143.863,"NIST 46.7","NIST 46.7" * 5404903,"Ni(NH3)4+2",144,-29.31,0,0,2,0,0,0,3 * 1,540,4,490,-4,330 * 126.8324,"NIST 46.7","NIST 46.7" * 5404900,"Ni(NH3)3+2",110,-21.19,0,0,2,0,0,0,3 * 1,540,3,490,-3,330 * 109.8018,"NIST 46.7","NIST 46.7" * 2804903,"Fe(NH3)4+2",177,-34.23,0,0,2,0,0,0,3 * 1,280,4,490,-4,330 * 123.9694,"NIST 46.7","NIST 46.7" * 2804902,"Fe(NH3)3+2",133,-25.05,0,0,2,0,0,0,3 * 1,280,3,490,-3,330 * 106.9388,"NIST 46.7","NIST 46.7" * 2804901,"Fe(NH3)2+2",89,-16.24,0,0,2,0,0,0,3 * 1,280,2,490,-2,330 * 89.9082,"NIST 46.7","NIST 46.7" * 2804900,"FeNH3+2",44.1,-7.84,0,0,2,0,0,0,3 * 1,280,1,490,-1,330 * 72.8776,"NIST 46.7","NIST 46.7" * 4704903,"Mn(NH3)4+2",188,-35.74,0,0,2,0,0,0,3 * 1,470,4,490,-4,330 * 123.0604,"NIST 46.7","NIST 46.7" * 4704902,"Mn(NH3)3+2",141,-26.35,0,0,2,0,0,0,3 * 1,470,3,490,-3,330 * 106.0298,"NIST 46.7","NIST 46.7" * 4704901,"Mn(NH3)2+2",94.4,-17.24,0,0,2,0,0,0,3 * 1,470,2,490,-2,330 * 88.9992,"NIST 46.7","NIST 46.7" * 4704900,"MnNH3+2",47,-8.4,0,0,2,0,0,0,3 * 1,470,1,490,-1,330 * 71.9686,"NIST 46.7","NIST 46.7" * 4604900,"Mg(NH3)2+2",99,-18.29,0,0,2,0,0,2,3 * 1,460,2,490,-2,330 * 58.3732,"NIST 46.7","NIST 46.7" * 4404900,"LiNH3+",51.2,-9.94,0,0,1,0,0,0,3 * 1,440,1,490,-1,330 * 23.9696,"NIST 46.7","NIST 46.7" * 3304900,"NH3 (aq)",52,-9.244,0,0,0,0,0,1,2 * 1,490,-1,330 * 17.0306,"NIST 46.7","NIST 46.7" * 204901,"AgNH3+",32,-5.93,0,0,1,0,0,0,3 * 1,20,1,490,-1,330 * 124.8988,"NIST 46.7","NIST 46.7" * 204902,"Ag(NH3)2+",48,-11.27,0,0,1,0,0,0,3 * 1,20,2,490,-2,330 * 141.9294,"NIST 46.7","NIST 46.7" * 3614901,"Hg(NH3)2+2",-38.7,5.47,0,0,2,0,0,0,3 * 1,361,-2,2,2,490 * 234.6464,"NIST 46.7","NIST 46.7" * 3614900,"Hg(NH3)4+2",36.3,-11.52,0,0,2,0,0,0,4 * 1,361,4,490,-2,330,-2,2 * 268.7178,"NIST 46.7","NIST 46.7" * 2314901,"CuNH3+2",32,-5.22,0,0,2,0,0,0,3 * 1,231,1,490,-1,330 * 80.5766,"NIST 46.7","NIST 46.7" * 5404901,"NiNH3+2",37,-6.52,0,0,2,0,0,0,3 * 1,540,1,490,-1,330 * 75.7206,"NIST 46.7","NIST 46.7" * 5404902,"Ni(NH3)2+2",74,-13.61,0,0,2,0,0,0,3 * 1,540,2,490,-2,330 * 92.7512,"NIST 46.7","NIST 46.7" * 2004900,"Co(NH3)+2",39,-7.21,0,0,2,0,0,0,3 * 1,200,1,490,-1,330 * 75.9638,"NIST 46.7","NIST 46.7" * 2004901,"Co(NH3)2+2",0,-14.99,0,0,2,0,0,0,3 * 1,200,2,490,-2,330 * 92.9944,"NIST 46.7","n.a." * 2004902,"Co(NH3)3+2",0,-23.3,0,0,2,0,0,0,3 * 1,200,3,490,-3,330 * 110.025,"NIST 46.7","n.a." * 2004903,"Co(NH3)4+2",0,-31.91,0,0,2,0,0,0,3 * 1,200,4,490,-4,330 * 127.0556,"NIST 46.7","n.a." * 2004904,"Co(NH3)5+2",0,-41.09,0,0,2,0,0,0,3 * 1,200,5,490,-5,330 * 144.0862,"NIST 46.7","n.a." * 2014901,"Co(NH3)6OH+2",0,-43.7148,0,0,2,0,0,0,4 * 1,201,6,490,-7,330,1,2 * 178.1242,"NIST2.1.1","MTQ3.11" * 2014902,"Co(NH3)5Cl+2",113.38,-17.9584,0,0,2,0,0,0,4 * 1,201,5,490,-5,330,1,180 * 179.5392,"NIST2.1.1","NIST2.1.1" * 2014903,"Co(NH3)6Cl+2",104.34,-33.9179,0,0,2,0,0,0,4 * 1,201,6,490,-6,330,1,180 * 196.5698,"NIST2.1.1","NIST2.1.1" * 2014904,"Co(NH3)6Br+2",110.5699,-33.8884,0,0,2,0,0,0,4 * 1,201,6,490,-6,330,1,130 * 241.0208,"NIST2.1.1","NIST2.1.1" * 2014905,"Co(NH3)6I+2",115.4399,-33.4808,0,0,2,0,0,0,4 * 1,201,6,490,-6,330,1,380 * 288.0213,"NIST2.1.1","NIST2.1.1" * 2014906,"Co(NH3)6SO4+",124.4999,-28.9926,0,0,1,0,0,0,4 * 1,201,6,490,-6,330,1,732 * 257.1798,"NIST2.1.1","NIST2.1.1" * 2114904,"Cr(NH3)6Cl+2",0,-31.7932,0,0,2,0,0,0,5 * 1,211,6,490,1,180,-2,2,-4,330 * 189.6326,"MTQ3.11","MTQ3.11" * 2114905,"Cr(NH3)6Br+2",0,-31.887,0,0,2,0,0,0,5 * 1,211,6,490,1,130,-4,330,-2,2 * 234.0836,"MTQ3.11","MTQ3.11" * 2114906,"Cr(NH3)6I+2",0,-32.008,0,0,2,0,0,0,5 * 1,211,6,490,1,380,-4,330,-2,2 * 281.0841,"MTQ3.11","MTQ3.11" * 1504901,"CaNH3+2",0,-9.04,0,0,2,0,0,1,3 * 1,150,1,490,-1,330 * 57.1086,"NIST 46.7","n.a." * 1504902,"Ca(NH3)2+2",0,-18.59,0,0,2,0,0,2,3 * 1,150,2,490,-2,330 * 74.1392,"NIST 46.7","n.a." * 8004901,"SrNH3+2",0,-9.24,0,0,2,0,0,0,3 * 1,800,1,490,-1,330 * 104.6506,"NIST 46.7","n.a." * 1004901,"BaNH3+2",0,-9.34,0,0,2,0,0,0,3 * 1,100,1,490,-1,330 * 154.3606,"NIST 46.7","n.a." * 8704910,"TlNO2 (aq)",0,.83,0,0,0,0,0,0,2 * 1,870,1,491 * 250.3885,"NIST 46.7","n.a." * 204911,"AgNO2 (aq)",-29,2.32,0,0,0,0,0,0,2 * 1,20,1,491 * 153.8737,"NIST 46.7","NIST 46.7" * 204910,"Ag(NO2)2-",-46,2.51,0,0,-1,0,0,0,2 * 1,20,2,491 * 199.8792,"NIST 46.7","NIST 46.7" * 2314911,"CuNO2+",0,2.02,0,0,1,0,0,0,2 * 1,231,1,491 * 109.5515,"NIST 46.7","n.a." * 2314912,"Cu(NO2)2 (aq)",0,3.03,0,0,0,0,0,0,2 * 1,231,2,491 * 155.557,"NIST 46.7","n.a." * 2004911,"CoNO2+",0,.85,0,0,1,0,0,0,2 * 1,200,1,491 * 104.9387,"NIST 46.7","n.a." * 3904912,"In(NO2)3 (aq)",0,6.23,0,0,0,0,0,0,2 * 1,390,3,491 * 252.8345,"NIST 46.7","n.a." * 3904911,"In(NO2)2+",0,5.02,0,0,1,0,0,0,2 * 1,390,2,491 * 206.829,"NIST 46.7","n.a." * 3904910,"InNO2+2",0,3.21,0,0,2,0,0,0,2 * 1,390,1,491 * 160.8235,"NIST 46.7","n.a." * 2904910,"GaNO2+2",0,2.72,0,0,2,0,0,0,2 * 1,290,1,491 * 115.7285,"NIST 46.7","n.a." * 6004911,"Pb(NO2)2 (aq)",0,3.11,0,0,0,0,0,0,2 * 1,600,2,491 * 299.2009,"NIST 46.7","n.a." * 6004910,"PbNO2+",0,2.51,0,0,1,0,0,0,2 * 1,600,1,491 * 253.1954,"NIST 46.7","n.a." * 3614913,"Hg(NO2)4-2",0,18.02,0,0,-2,0,0,0,4 * 1,361,4,491,2,330,-2,2 * 384.6174,"NIST 46.7","n.a." * 3614912,"Hg(NO2)3-",0,17.61,0,0,-1,0,0,0,4 * 1,361,3,491,2,330,-2,2 * 338.6119,"NIST 46.7","n.a." * 3614911,"Hg(NO2)2 (aq)",0,16.07,0,0,0,0,0,0,4 * 1,361,2,491,2,330,-2,2 * 292.6064,"NIST 46.7","n.a." * 3614910,"HgNO2+",0,12.1,0,0,1,0,0,0,4 * 1,361,1,491,2,330,-2,2 * 246.6009,"NIST 46.7","n.a." * 1604911,"Cd(NO2)2 (aq)",-17,3.54,0,0,0,0,0,0,2 * 1,160,2,491 * 204.4104,"NIST 46.7","NIST 46.7" * 1604910,"CdNO2+",-8.7,1.95,0,0,1,0,0,0,2 * 1,160,1,491 * 158.4049,"NIST 46.7","NIST 46.7" * 9504911,"Zn(NO2)2 (aq)",0,1.2,0,0,0,0,0,0,2 * 1,950,2,491 * 157.3809,"NIST 46.7","n.a." * 9504910,"ZnNO2+",0,.78,0,0,1,0,0,0,2 * 1,950,1,491 * 111.3754,"NIST 46.7","n.a." * 5704910,"Pd(NO2)4-2",0,21.04,0,0,-2,0,0,0,2 * 1,570,4,491 * 290.442,"NIST 46.7","n.a." * 2814912,"Fe(NO2)3 (aq)",0,6.78,0,0,0,0,0,0,2 * 1,281,3,491 * 193.8635,"NIST 46.7","n.a." * 2814911,"Fe(NO2)2+",0,4.72,0,0,1,0,0,0,2 * 1,281,2,491 * 147.858,"NIST 46.7","n.a." * 5404911,"Ni(NO2)2 (aq)",0,1.79,0,0,0,0,0,0,2 * 1,540,2,491 * 150.721,"NIST 46.7","n.a." * 5404910,"NiNO2+",0,1.38,0,0,1,0,0,0,2 * 1,540,1,491 * 104.7155,"NIST 46.7","n.a." * 4704910,"MnNO2+",0,.86,0,0,1,0,0,0,2 * 1,470,1,491 * 100.9435,"NIST 46.7","n.a." * 1904910,"CmNO2+2",0,1.43,0,0,2,0,0,0,2 * 1,190,1,491 * 293.0055,"NIST 46.7","n.a." * 454910,"AmNO2+2",0,1.57,0,0,2,0,0,0,2 * 1,45,1,491 * 289.0055,"NIST 46.7","n.a." * 4913300,"HNO2 (aq)",0,3.15,0,0,0,0,0,0,2 * 1,491,1,330 * 47.0135,"NIST 46.7","n.a." * 7904921,"SnNO3+",0,7.94,0,0,1,0,0,0,4 * 1,790,-2,2,2,330,1,492 * 180.7147,"NIST 46.7","n.a." * 6004920,"PbNO3+",-2,1.17,0,0,1,0,0,0,2 * 1,600,1,492 * 269.2049,"NIST 46.7","NIST 46.7" * 6004921,"Pb(NO3)2 (aq)",-6.6,1.4,0,0,0,0,0,0,2 * 1,600,2,492 * 331.2098,"NIST 46.7","NIST 46.7" * 8704920,"TlNO3 (aq)",-2,.33,0,0,0,0,0,0,2 * 1,870,1,492 * 266.3879,"NIST 46.7","NIST 46.7" * 8714920,"TlNO3+2",0,7.0073,0,0,2,0,0,0,4 * 1,871,1,492,3,330,-3,2 * 266.3877,"MTQ3.11","MTQ3.11" * 1604920,"CdNO3+",-21,.5,0,0,1,0,0,0,2 * 1,160,1,492 * 174.4149,"NIST 46.7","NIST 46.7" * 1604921,"Cd(NO3)2 (aq)",0,.2,0,0,0,0,0,0,2 * 1,160,2,492 * 236.4198,"NIST 46.7","n.a." * 3614920,"HgNO3+",0,5.7613,0,0,1,0,0,0,4 * 1,361,-2,2,2,330,1,492 * 262.5901,"NIST46.3","MTQ3.11" * 3614921,"Hg(NO3)2 (aq)",0,5.38,0,0,0,0,0,0,4 * 1,361,-2,2,2,330,2,492 * 324.595,"NIST46.3","MTQ3.11" * 2314921,"CuNO3+",-4.1,.5,0,0,1,0,0,0,2 * 1,231,1,492 * 125.5509,"NIST 46.7","NIST 46.7" * 2314922,"Cu(NO3)2 (aq)",0,-.4,0,0,0,0,0,0,2 * 1,231,2,492 * 187.5558,"NIST 46.7","n.a." * 9504921,"ZnNO3+",-4.6,.4,0,0,1,0,0,0,2 * 1,950,1,492 * 127.3949,"NIST 46.7","NIST 46.7" * 9504922,"Zn(NO3)2 (aq)",0,-.3,0,0,0,0,0,0,2 * 1,950,2,492 * 189.3998,"NIST 46.7","n.a." * 204920,"AgNO3 (aq)",22.6,-.1,0,0,0,0,0,0,2 * 1,20,1,492 * 169.8731,"NIST 46.7","NIST 46.7" * 5404921,"NiNO3+",0,.4,0,0,1,0,0,0,2 * 1,540,1,492 * 120.6949,"NIST 46.7","n.a." * 2004921,"CoNO3+",0,.2,0,0,1,0,0,0,2 * 1,200,1,492 * 120.9381,"NIST 46.7","n.a." * 2004922,"Co(NO3)2 (aq)",0,.51,0,0,0,0,0,0,2 * 1,200,2,492 * 182.943,"NIST 46.7","n.a." * 2814910,"FeNO2+2",0,3.2,0,0,2,0,0,0,2 * 1,281,1,491 * 101.8525,"NIST 46.7","n.a." * 1154921,"Bi(NO3)2+",0,2.5,0,0,1,0,0,0,2 * 1,115,2,492 * 332.9898,"NIST 46.7","n.a." * 5534920,"NpO2NO3+",0,-.36,0,0,1,0,0,0,2 * 1,553,1,492 * 330.9949,"NIST 46.7","n.a." * 5524921,"Np(NO3)2+2",0,1.53,0,0,2,0,0,0,2 * 1,552,2,492 * 361.0098,"NIST 46.7","n.a." * 5524920,"NpNO3+3",0,1.7,0,0,3,0,0,0,2 * 1,552,1,492 * 299.0049,"NIST 46.7","n.a." * 1354920,"CeNO3+2",0,.81,0,0,2,0,0,0,2 * 1,135,1,492 * 202.1209,"NIST 46.7","n.a." * 8054920,"YNO3+2",0,.4,0,0,2,0,0,0,2 * 1,805,1,492 * 150.9149,"Spahiu95","Spahiu95" * 4704921,"MnNO3+",0,.2,0,0,1,0,0,0,2 * 1,470,1,492 * 116.9429,"NIST 46.7","n.a." * 2114920,"CrNO3+2",-65.4378,8.2094,0,0,2,0,0,0,4 * 1,211,1,492,2,330,-2,2 * 114.0009,"MTQ3.11","MTQ3.11" * 8934921,"UO2NO3+",-12,.3,0,0,1,0,0,0,2 * 1,893,1,492 * 332.0326,"NEA_2003","NIST 46.7" * 9034920,"VO2NO3 (aq)",0,15.69,0,0,0,0,0,0,4 * 1,903,1,492,3,330,-2,2 * 144.9462,"NIST 46.7","n.a." * 1504921,"CaNO3+",-5.4,.5,0,0,1,0,0,0,2 * 1,150,1,492 * 102.0829,"NIST 46.7","NIST 46.7" * 8004921,"SrNO3+",-10,.6,0,0,1,0,0,0,2 * 1,800,1,492 * 149.6249,"NIST 46.7","NIST 46.7" * 1004921,"BaNO3+",-13,.7,0,0,1,0,0,0,2 * 1,100,1,492 * 199.3349,"NIST 46.7","NIST 46.7" * 1154920,"BiNO3+2",12,1.7,0,0,2,0,0,0,2 * 1,115,1,492 * 270.9849,"NIST 46.7","NIST 46.7" * 3904920,"InNO3+2",0,.9,0,0,2,0,0,0,2 * 1,390,1,492 * 176.8229,"NIST 46.7","n.a." * 5914920,"PuNO3+3",8,2.6,0,0,3,0,0,0,2 * 1,591,1,492 * 306.0049,"Runde02","NIST 46.7" * 1704920,"CfNO3+2",0,1.01,0,0,2,0,0,0,2 * 1,170,1,492 * 313.0049,"NIST 46.7","n.a." * 1904920,"CmNO3+2",0,.95,0,0,2,0,0,0,2 * 1,190,1,492 * 309.0049,"NIST 46.7","n.a." * 454920,"AmNO3+2",0,1.3,0,0,2,0,0,0,2 * 1,45,1,492 * 305.0049,"NIST 46.7","n.a." * 4504920,"LuNO3+2",0,.41,0,0,2,0,0,0,2 * 1,450,1,492 * 236.9719,"NIST 46.7","n.a." * 8804920,"TmNO3+2",0,.36,0,0,2,0,0,0,2 * 1,880,1,492 * 230.9389,"NIST 46.7","n.a." * 2504920,"ErNO3+2",0,.31,0,0,2,0,0,0,2 * 1,250,1,492 * 229.2639,"NIST 46.7","n.a." * 3704920,"HoNO3+2",0,.41,0,0,2,0,0,0,2 * 1,370,1,492 * 226.9349,"NIST 46.7","n.a." * 2404920,"DyNO3+2",0,.31,0,0,2,0,0,0,2 * 1,240,1,492 * 224.5049,"NIST 46.7","n.a." * 8014920,"TbNO3+2",0,.88,0,0,2,0,0,0,2 * 1,801,1,492 * 220.9299,"NIST 46.7","n.a." * 2604920,"EuNO3+2",-4.6,1.22,0,0,2,0,0,0,2 * 1,260,1,492 * 213.9689,"NIST 46.7","NIST 46.7" * 7804920,"SmNO3+2",0,.91,0,0,2,0,0,0,2 * 1,780,1,492 * 212.3649,"NIST 46.7","n.a." * 5204920,"NdNO3+2",0,.91,0,0,2,0,0,0,2 * 1,520,1,492 * 206.2449,"NIST 46.7","n.a." * 5854920,"PrNO3+2",0,.81,0,0,2,0,0,0,2 * 1,585,1,492 * 202.9129,"NIST 46.7","n.a." * 4704920,"Mn(NO3)2 (aq)",-1.6569,.6,0,0,0,0,0,0,2 * 1,470,2,492 * 178.9478,"NIST 46.7","MTQ3.11" * 8914921,"U(NO3)2+2",0,2.3,0,0,2,0,0,0,2 * 1,891,2,492 * 362.0388,"NEA_2003","n.a." * 8914920,"UNO3+3",0,1.47,0,0,3,0,0,0,2 * 1,891,1,492 * 300.0339,"NEA_2003","n.a." * 8024920,"ThNO3+3",0,1.75,0,0,3,0,0,0,2 * 1,802,1,492 * 294.0449,"NIST 46.7","n.a." * 4204920,"LaNO3+2",0,.71,0,0,2,0,0,0,2 * 1,420,1,492 * 200.9109,"NIST 46.7","n.a." * 1104920,"BeNO3+",0,-.49,0,0,1,0,0,0,2 * 1,110,1,492 * 71.0171,"NIST 46.7","NIST 46.7" * 3104920,"GdNO3+2",0,.61,0,0,2,0,0,0,2 * 1,310,1,492 * 219.2549,"NIST 46.7","n.a." * 2154920,"CsNO3 (aq)",0,.02,0,0,0,0,0,0,2 * 1,215,1,492 * 194.9099,"NIST 46.7","n.a." * 6804920,"RbNO3 (aq)",0,-.08,0,0,0,0,0,0,2 * 1,680,1,492 * 147.4748,"NIST 46.7","n.a." * 4104920,"KNO3 (aq)",-12,-.19,0,0,0,0,0,0,2 * 1,410,1,492 * 101.1069,"NIST 46.7","NIST 46.7" * 5004920,"NaNO3 (aq)",0,-.55,0,0,0,0,0,0,2 * 1,500,1,492 * 84.9947,"NIST 46.7","n.a." * 8064920,"YbNO3+2",0,.41,0,0,2,0,0,0,2 * 1,806,1,492 * 235.0449,"NIST 46.7","n.a." * 9501432,"Zn(CN)4-2",-116,19.62,0,0,-2,0,0,0,2 * 1,950,4,143 * 169.4419,"NIST 46.7","NIST 46.7" * 9501431,"Zn(CN)3-",-84.5,16.05,0,0,-1,0,0,0,2 * 1,950,3,143 * 143.4239,"NIST 46.7","NIST 46.7" * 9501430,"Zn(CN)2 (aq)",-46,11.07,0,0,0,0,0,0,2 * 1,950,2,143 * 117.4059,"NIST 46.7","NIST 46.7" * 5701431,"Pd(CN)5-3",-387,45.3,0,0,-3,0,0,0,2 * 1,570,5,143 * 236.51,"NIST 46.7","NIST 46.7" * 5701430,"Pd(CN)4-2",-386,42.4,0,0,-2,0,0,0,2 * 1,570,4,143 * 210.492,"NIST 46.7","NIST 46.7" * 4701431,"Mn(CN)2 (aq)",0,4.07,0,0,0,0,0,0,2 * 1,470,2,143 * 106.974,"NIST 46.7","n.a." * 4701430,"MnCN+",0,2.31,0,0,1,0,0,0,2 * 1,470,1,143 * 80.956,"NIST 46.7","n.a." * 3301431,"HCN (aq)",-43.59,9.21,0,0,0,0,0,0,2 * 1,330,1,143 * 27.0256,"NIST 46.7","NIST 46.7" * 1601431,"CdCN+",-30,6.01,0,0,1,0,0,0,2 * 1,160,1,143 * 138.4277,"NIST 46.7","NIST 46.7" * 1601432,"Cd(CN)2 (aq)",-54.3,11.12,0,0,0,0,0,0,2 * 1,160,2,143 * 164.4454,"NIST 46.7","NIST 46.7" * 1601433,"Cd(CN)3-",-90.3,15.65,0,0,-1,0,0,0,2 * 1,160,3,143 * 190.4631,"NIST 46.7","NIST 46.7" * 1601434,"Cd(CN)4-2",-112,17.92,0,0,-2,0,0,0,2 * 1,160,4,143 * 216.4808,"NIST 46.7","NIST 46.7" * 3611431,"HgCN+",-136.7,23.16,0,0,1,0,0,0,4 * 1,361,-2,2,2,330,1,143 * 226.6029,"NIST 46.7","NIST 46.7" * 3611432,"Hg(CN)2 (aq)",-234,38.91,0,0,0,0,0,0,4 * 1,361,-2,2,2,330,2,143 * 252.6206,"NIST 46.7","NIST 46.7" * 3611433,"Hg(CN)3-",-262.7,42.47,0,0,-1,0,0,0,4 * 1,361,-2,2,2,330,3,143 * 278.6383,"NIST 46.7","NIST 46.7" * 3611434,"Hg(CN)4-2",-288.7,45.13,0,0,-2,0,0,0,4 * 1,361,-2,2,2,330,4,143 * 304.656,"NIST 46.7","NIST 46.7" * 2301432,"Cu(CN)2-",-121,23.9,0,0,-1,0,0,0,2 * 1,230,2,143 * 115.5814,"NIST 46.6","NIST 46.6" * 2301433,"Cu(CN)3-2",-167.4,29.2,0,0,-2,0,0,0,2 * 1,230,3,143 * 141.5991,"NIST 46.6","NIST 46.6" * 2301431,"Cu(CN)4-3",-214.2,30.7,0,0,-3,0,0,0,2 * 1,230,4,143 * 167.6168,"NIST 46.6","NIST 46.6" * 201432,"Ag(CN)2-",-137,20.48,0,0,-1,0,0,0,2 * 1,20,2,143 * 159.9036,"NIST 46.7","NIST 46.7" * 201433,"Ag(CN)3-2",-140,21.7,0,0,-2,0,0,0,2 * 1,20,3,143 * 185.9213,"NIST 46.7","NIST 46.7" * 201431,"Ag(CN)OH-",0,-.78,0,0,-1,0,0,0,4 * 1,20,1,2,-1,330,1,143 * 150.8933,"NIST 46.7","n.a." * 5401431,"Ni(CN)4-2",-180,30.2,0,0,-2,0,0,0,2 * 1,540,4,143 * 162.7608,"NIST 46.7","NIST 46.7" * 5401432,"NiH(CN)4-",0,36.03,0,0,-1,0,0,0,3 * 1,540,4,143,1,330 * 163.7687,"NIST 46.7","n.a." * 5401433,"NiH2CN4 (aq)",0,40.74,0,0,0,0,0,0,3 * 1,540,4,143,2,330 * 164.7766,"NIST 46.7","n.a." * 5401434,"NiH3(CN)4+",0,43.34,0,0,1,0,0,0,3 * 1,540,4,143,3,330 * 165.7845,"NIST 46.7","n.a." * 2001431,"Co(CN)3-",0,14.31,0,0,-1,0,0,0,2 * 1,200,3,143 * 136.9863,"NIST 46.7","n.a." * 2001432,"Co(CN)5-3",-257,23,0,0,-3,0,0,0,2 * 1,200,5,143 * 189.0217,"NIST 46.7","NIST 46.7" * 2801431,"Fe(CN)6-4",-358,35.4,0,0,-4,0,0,0,2 * 1,280,6,143 * 211.9532,"NIST 46.7","NIST 46.7" * 2801432,"HFe(CN)6-3",-356,39.71,0,0,-3,0,0,0,3 * 1,330,1,280,6,143 * 212.9611,"NIST46.4","NIST46.4" * 2801433,"H2Fe(CN)6-2",-352,42.11,0,0,-2,0,0,0,3 * 2,330,1,280,6,143 * 213.969,"NIST46.4","NIST46.4" * 2811431,"Fe(CN)6-3",-293,43.6,0,0,-3,0,0,0,2 * 1,281,6,143 * 211.9532,"NIST 46.7","NIST 46.7" * 2811432,"Fe2(CN)6 (aq)",-218,47.6355,0,0,0,0,0,0,2 * 2,281,6,143 * 267.8002,"NIST46.4","NIST46.4" * 7901431,"SnFe(CN)6-",0,53.54,0,0,-1,0,0,0,5 * 1,790,1,281,6,143,-2,2,2,330 * 330.6432,"Ba1987","" * 4901431,"NH4Fe(CN)6-3",-354,37.7,0,0,-3,0,0,0,3 * 1,490,1,280,6,143 * 229.9917,"NIST46.4","NIST46.4" * 8701432,"TlFe(CN)6-3",-365.5,38.4,0,0,-3,0,0,0,3 * 1,870,1,280,6,143 * 416.3362,"NIST46.4","NIST46.4" * 4601431,"MgFe(CN)6-",-290,46.39,0,0,-1,0,0,0,3 * 1,460,1,281,6,143 * 236.2582,"NIST46.4","NIST46.4" * 4601432,"MgFe(CN)6-2",-346,39.21,0,0,-2,0,0,0,3 * 1,460,1,280,6,143 * 236.2582,"NIST46.4","NIST46.4" * 1501431,"CaFe(CN)6-",-291,46.43,0,0,-1,0,0,0,3 * 1,150,1,281,6,143 * 252.0312,"NIST46.4","NIST46.4" * 1501432,"CaFe(CN)6-2",-347,39.1,0,0,-2,0,0,0,3 * 1,150,1,280,6,143 * 252.0312,"NIST46.4","NIST46.4" * 1501433,"Ca2Fe(CN)6 (aq)",-350.2008,40.6,0,0,0,0,0,0,3 * 2,150,1,280,6,143 * 292.1092,"NIST46.4","MTQ3.11" * 8001431,"SrFe(CN)6-",-292,46.45,0,0,-1,0,0,0,3 * 1,800,1,281,6,143 * 299.5732,"NIST46.4","NIST46.4" * 8001432,"SrFe(CN)6-2",-350,39.1,0,0,-2,0,0,0,3 * 1,800,1,280,6,143 * 299.5732,"NIST46.4","NIST46.4" * 1001430,"BaFe(CN)6-2",-342,39.19,0,0,-2,0,0,0,3 * 1,100,1,280,6,143 * 349.2832,"NIST46.4","NIST46.4" * 1001431,"BaFe(CN)6-1",-292,46.48,0,0,-1,0,0,0,3 * 1,100,1,281,6,143 * 349.2832,"NIST46.4","NIST46.4" * 5001431,"NaFe(CN)6-3",-354,37.6,0,0,-3,0,0,0,3 * 1,500,1,280,6,143 * 234.943,"NIST46.4","NIST46.4" * 4101433,"KFe(CN)6-3",-353.9,37.75,0,0,-3,0,0,0,3 * 1,410,1,280,6,143 * 251.0515,"NIST46.4","NIST46.4" * 4101430,"KFe(CN)6-2",-291,45.04,0,0,-2,0,0,0,3 * 1,410,1,281,6,143 * 251.0515,"NIST46.4","NIST46.4" * 5405612,"Ni(SCN)3-",-35,2.11,0,0,-1,0,0,0,2 * 1,540,3,561 * 232.92,"NIST 46.7","NIST 46.7" * 8915612,"U(SCN)3+",0,4.04,0,0,1,0,0,0,2 * 1,891,3,561 * 412.239,"NIST 46.7","n.a." * 1155614,"Bi(SCN)5-2",0,5.8,0,0,-2,0,0,0,2 * 1,115,5,561 * 499.33,"NIST 46.7","n.a." * 1155613,"Bi(SCN)4-",29,5.2,0,0,-1,0,0,0,2 * 1,115,4,561 * 441.26,"NIST 46.7","NIST 46.7" * 1155612,"Bi(SCN)3 (aq)",46,4.4,0,0,0,0,0,0,2 * 1,115,3,561 * 383.19,"NIST 46.7","NIST 46.7" * 1155611,"Bi(SCN)2+",-41,3.7,0,0,1,0,0,0,2 * 1,115,2,561 * 325.12,"NIST 46.7","NIST 46.7" * 1155610,"BiSCN+2",-33,2.21,0,0,2,0,0,0,2 * 1,115,1,561 * 267.05,"NIST 46.7","NIST 46.7" * 3905610,"InSCN+2",-7.1,3.3,0,0,2,0,0,0,2 * 1,390,1,561 * 172.888,"NIST 46.7","NIST 46.7" * 2905610,"GaSCN+2",0,2.3,0,0,2,0,0,0,2 * 1,290,1,561 * 127.793,"NIST 46.7","n.a." * 305610,"AlSCN+2",0,.42,0,0,2,0,0,0,2 * 1,30,1,561 * 85.0515,"NIST 46.7","n.a." * 6005610,"PbSCN+",1,.9,0,0,1,0,0,0,2 * 1,600,1,561 * 265.2599,"NIST 46.7","NIST 46.7" * 7905611,"Sn(SCN)2 (aq)",0,8.9,0,0,0,0,0,0,4 * 1,790,2,561,2,330,-2,2 * 234.85,"NIST 46.7","n.a." * 7905610,"SnSCN+",0,8.33,0,0,1,0,0,0,4 * 1,790,1,561,2,330,-2,2 * 176.78,"NIST 46.7","n.a." * 1605613,"Cd(SCN)4-2",-26,2.3,0,0,-2,0,0,0,2 * 1,160,4,561 * 344.6794,"NIST 46.7","NIST 46.7" * 1605612,"Cd(SCN)3-",-32,2.85,0,0,-1,0,0,0,2 * 1,160,3,561 * 286.6094,"NIST 46.7","NIST 46.7" * 1605611,"Cd(SCN)2 (aq)",-23,2.72,0,0,0,0,0,0,2 * 1,160,2,561 * 228.5394,"NIST 46.7","NIST 46.7" * 1605610,"CdSCN+",-12,1.93,0,0,1,0,0,0,2 * 1,160,1,561 * 170.4694,"NIST 46.7","NIST 46.7" * 9505613,"Zn(SCN)4-2",-7.5,1.63,0,0,-2,0,0,0,2 * 1,950,4,561 * 297.6499,"NIST 46.7","NIST 46.7" * 9505612,"Zn(SCN)3-",-.8,2,0,0,-1,0,0,0,2 * 1,950,3,561 * 239.5799,"NIST 46.7","NIST 46.7" * 9505611,"Zn(SCN)2 (aq)",-1,1.91,0,0,0,0,0,0,2 * 1,950,2,561 * 181.5099,"NIST 46.7","NIST 46.7" * 9505610,"ZnSCN+",-5.8,1.33,0,0,1,0,0,0,2 * 1,950,1,561 * 123.4399,"NIST 46.7","NIST 46.7" * 5705610,"Pd(SCN)4-2",0,27.34,0,0,-2,0,0,0,2 * 1,570,4,561 * 338.7,"NIST 46.7","n.a." * 8705610,"TlSCN (aq)",-12,.58,0,0,0,0,0,0,2 * 1,870,1,561 * 262.44,"NIST 46.7","NIST 46.7" * 3615614,"HgOHSCN (aq)",-66.6,12.61,0,0,0,0,0,0,4 * 1,361,1,561,1,330,-1,2 * 275.6727,"NIST 46.7","NIST 46.7" * 3615613,"Hg(SCN)4-2",-180.7,28.27,0,0,-2,0,0,0,4 * 1,361,4,561,2,330,-2,2 * 432.8754,"NIST 46.7","NIST 46.7" * 3615612,"Hg(SCN)3-",-159.7,26.47,0,0,-1,0,0,0,4 * 1,361,3,561,2,330,-2,2 * 374.8054,"NIST 46.7","NIST 46.7" * 3615611,"Hg(SCN)2 (aq)",-140.7,23.66,0,0,0,0,0,0,4 * 1,361,2,561,2,330,-2,2 * 316.7354,"NIST 46.7","NIST 46.7" * 3615610,"HgSCN+",-88.6,15.8,0,0,1,0,0,0,4 * 1,361,1,561,2,330,-2,2 * 258.6654,"NIST 46.7","NIST 46.7" * 205613,"Ag(SCN)4-3",0,9.7,0,0,-3,0,0,0,2 * 1,20,4,561 * 340.148,"NIST 46.7","n.a." * 205612,"Ag(SCN)3-2",0,9.5,0,0,-2,0,0,0,2 * 1,20,3,561 * 282.078,"NIST 46.7","n.a." * 205611,"Ag(SCN)2-",0,8.23,0,0,-1,0,0,0,2 * 1,20,2,561 * 224.008,"NIST 46.7","n.a." * 205610,"AgSCN (aq)",-87,4.8,0,0,0,0,0,0,2 * 1,20,1,561 * 165.938,"NIST 46.7","NIST 46.7" * 9025611,"VO(SCN)2 (aq)",-4,3.68,0,0,0,0,0,0,2 * 1,902,2,561 * 183.079,"NIST 46.7","NIST 46.7" * 9025610,"VOSCN+",-16,2.32,0,0,1,0,0,0,2 * 1,902,1,561 * 125.009,"NIST 46.7","NIST 46.7" * 2815613,"FeOHSCN+",0,-10.37,0,0,1,0,0,0,4 * 1,281,1,561,-1,330,1,2 * 130.9243,"NIST 46.7","n.a." * 2815612,"Fe(SCN)3 (aq)",-25,5.23,0,0,0,0,0,0,2 * 1,281,3,561 * 230.057,"NIST 46.7","NIST 46.7" * 2815611,"Fe(SCN)2+",-12,4.6,0,0,1,0,0,0,2 * 1,281,2,561 * 171.987,"NIST 46.7","NIST 46.7" * 2815610,"FeSCN+2",-4.6,3.03,0,0,2,0,0,0,2 * 1,281,1,561 * 113.917,"NIST 46.7","NIST 46.7" * 2115611,"Cr(SCN)2+",0,13.84,0,0,1,0,0,0,4 * 1,211,2,561,2,330,-2,2 * 168.1364,"NIST 46.7","n.a." * 2115610,"CrSCN+2",-101.6,12.93,0,0,2,0,0,0,4 * 1,211,1,561,2,330,-2,2 * 110.0664,"NIST 46.7","NIST 46.7" * 9015610,"VSCN+2",-16,3.01,0,0,2,0,0,0,2 * 1,901,1,561 * 109.01,"NIST 46.7","NIST 46.7" * 2315611,"Cu(SCN)2 (aq)",-25,3.65,0,0,0,0,0,0,2 * 1,231,2,561 * 179.686,"NIST 46.7","NIST 46.7" * 2315610,"CuSCN+",-12,2.33,0,0,1,0,0,0,2 * 1,231,1,561 * 121.616,"NIST 46.7","NIST 46.7" * 5405611,"Ni(SCN)2 (aq)",-21,2.84,0,0,0,0,0,0,2 * 1,540,2,561 * 174.85,"NIST 46.7","NIST 46.7" * 5405610,"NiSCN+",-9.6,1.78,0,0,1,0,0,0,2 * 1,540,1,561 * 116.78,"NIST 46.7","NIST 46.7" * 2005611,"Co(SCN)2 (aq)",-22,2.68,0,0,0,0,0,0,2 * 1,200,2,561 * 175.0732,"NIST 46.7","NIST 46.7" * 2005610,"CoSCN+",-6.6,1.72,0,0,1,0,0,0,2 * 1,200,1,561 * 117.0032,"NIST 46.7","NIST 46.7" * 2805610,"FeSCN+",0,1.31,0,0,1,0,0,0,2 * 1,280,1,561 * 113.917,"NIST 46.7","n.a." * 4705610,"MnSCN+",-3,1.23,0,0,1,0,0,0,2 * 1,470,1,561 * 113.008,"NIST 46.7","NIST 46.7" * 2105610,"CrSCN+",0,1.09,0,0,1,0,0,0,2 * 1,210,1,561 * 110.066,"NIST 46.7","n.a." * 9005610,"VSCN+",-20,1.84,0,0,1,0,0,0,2 * 1,900,1,561 * 109.01,"NIST 46.7","NIST 46.7" * 8935612,"UO2(SCN)3-",-10,1.4,0,0,-1,0,0,0,2 * 1,893,3,561 * 444.2378,"NIST 46.7","NIST 46.7" * 8935611,"UO2(SCN)2 (aq)",-6.2,1.6,0,0,0,0,0,0,2 * 1,893,2,561 * 386.1678,"NIST 46.7","NIST 46.7" * 8935610,"UO2SCN+",-3,1.31,0,0,1,0,0,0,2 * 1,893,1,561 * 328.0978,"NIST 46.7","NIST 46.7" * 8915611,"U(SCN)2+2",-33,4.2,0,0,2,0,0,0,2 * 1,891,2,561 * 354.169,"NIST 46.7","NIST 46.7" * 8915610,"USCN+3",-25,2.97,0,0,3,0,0,0,2 * 1,891,1,561 * 296.099,"NIST 46.7","NIST 46.7" * 8025611,"Th(SCN)3+",0,3.21,0,0,1,0,0,0,2 * 1,802,3,561 * 406.25,"NIST 46.7","n.a." * 8025610,"ThSCN+3",0,1.9,0,0,3,0,0,0,2 * 1,802,1,561 * 290.11,"NIST 46.7","n.a." * 1705610,"CfSCN+2",0,1.14,0,0,2,0,0,0,2 * 1,170,1,561 * 309.07,"NIST 46.7","n.a." * 1255610,"BkSCN+2",4,1.1,0,0,2,0,0,0,2 * 1,125,1,561 * 305.07,"NIST 46.7","NIST 46.7" * 1905610,"CmSCN+2",12,.91,0,0,2,0,0,0,2 * 1,190,1,561 * 305.07,"NIST 46.7","NIST 46.7" * 455610,"AmSCN+2",8,1.3,0,0,2,0,0,0,2 * 1,45,1,561 * 301.07,"NIST 46.7","NIST 46.7" * 5905610,"PuSCN+2",0,1,0,0,2,0,0,0,2 * 1,590,1,561 * 302.07,"NIST 46.7","n.a." * 4505610,"LuSCN+2",0,.81,0,0,2,0,0,0,2 * 1,450,1,561 * 233.037,"NIST 46.7","n.a." * 2505610,"ErSCN+2",0,.97,0,0,2,0,0,0,2 * 1,250,1,561 * 225.329,"NIST 46.7","n.a." * 2405610,"DySCN+2",0,.93,0,0,2,0,0,0,2 * 1,240,1,561 * 220.57,"NIST 46.7","n.a." * 8015610,"TbSCN+2",0,.84,0,0,2,0,0,0,2 * 1,801,1,561 * 216.995,"NIST 46.7","n.a." * 3105610,"GdSCN+2",0,1.02,0,0,2,0,0,0,2 * 1,310,1,561 * 215.32,"NIST 46.7","n.a." * 2605610,"EuSCN+2",4,.7,0,0,2,0,0,0,2 * 1,260,1,561 * 210.034,"NIST 46.7","NIST 46.7" * 7805610,"SmSCN+2",0,.9,0,0,2,0,0,0,2 * 1,780,1,561 * 208.43,"NIST 46.7","n.a." * 4205610,"LaSCN+2",0,.73,0,0,2,0,0,0,2 * 1,420,1,561 * 196.976,"NIST 46.7","n.a." * 8055610,"YSCN+2",0,.74,0,0,2,0,0,0,2 * 1,805,1,561 * 146.98,"NIST 46.7","n.a." * 7505610,"ScSCN+2",0,1.01,0,0,2,0,0,0,2 * 1,750,1,561 * 103.026,"NIST 46.7","n.a." * 5613300,"HSCN (aq)",0,-1.1,0,0,0,0,0,0,2 * 1,561,1,330 * 59.078,"NIST 46.7","n.a." * 205600,"AgOCN (aq)",0,5,0,0,0,0,0,0,2 * 1,20,1,560 * 149.878,"NIST 46.7","n.a." * 5603300,"HOCN (aq)",-8.3,3.48,0,0,0,0,0,0,2 * 1,560,1,330 * 43.018,"NIST 46.7","NIST 46.7" * 3305800,"HPO4-2",-15,12.375,0,0,-2,5,0,1,2 * 1,330,1,580 * 95.9793,"NIST 46.7","NIST 46.7" * 3305801,"H2PO4-",-18,19.573,0,0,-1,5.4,0,0,2 * 2,330,1,580 * 96.9872,"NIST 46.7","NIST 46.7" * 3305802,"H3PO4",-10.5,21.721,0,0,0,0,0,-1,2 * 3,330,1,580 * 97.9951,"NIST 46.7","NIST 46.7" * 9035800,"VO2HPO4-",0,33.27,0,0,-1,0,0,0,4 * 1,903,1,580,4,330,-2,2 * 178.9184,"NIST 46.7","n.a." * 5405801,"NiH2PO4+",0,20.5,0,0,1,0,0,0,3 * 1,540,1,580,2,330 * 155.6974,"NIST 46.7","n.a." * 5405800,"NiHPO4 (aq)",0,15.33,0,0,0,0,0,0,3 * 1,540,1,580,1,330 * 154.6894,"NIST 46.7","n.a." * 1355801,"CeH2PO4+2",0,21.9,0,0,2,0,0,0,3 * 1,135,1,580,2,330 * 237.1034,"NIST 46.7","n.a." * 1355800,"CePO4 (aq)",0,11.73,0,0,0,0,0,0,2 * 1,135,1,580 * 235.0874,"NIST 46.7","n.a." * 1005800,"BaHPO4 (aq)",0,14.59,0,0,0,0,0,0,3 * 1,100,1,580,1,330 * 233.3194,"NIST 46.7","n.a." * 2005800,"CoHPO4 (aq)",0,15.43,0,0,0,0,0,0,3 * 1,200,1,330,1,580 * 154.9125,"NIST 46.7","n.a." * 2805800,"FeH2PO4+",0,22.273,0,0,1,5.4,0,0,3 * 1,280,2,330,1,580 * 152.8342,"NIST46.3","MTQ3.11" * 2805801,"FeHPO4 (aq)",0,15.975,0,0,0,0,0,0,3 * 1,280,1,330,1,580 * 151.8263,"NIST46.3","MTQ3.11" * 2815801,"FeH2PO4+2",0,23.85,0,0,2,5.4,0,0,3 * 1,281,2,330,1,580 * 152.8342,"NIST 46.7","n.a." * 2815800,"FeHPO4+",-30.5432,22.285,0,0,1,5.4,0,0,3 * 1,281,1,330,1,580 * 151.8263,"NIST 46.7","MTQ3.11" * 2115800,"CrH2PO4+2",0,31.9068,0,0,2,0,0,0,4 * 1,211,4,330,1,580,-2,2 * 148.9832,"MTQ3.11","MTQ3.11" * 8065801,"YbPO4 (aq)",0,12.9,0,0,0,0,0,0,2 * 1,806,1,580 * 268.0114,"Spahiu95","Spahiu95" * 8065800,"YbHPO4+",0,18.38,0,0,1,0,0,0,3 * 1,806,1,580,1,330 * 269.0194,"Spahiu95","Spahiu95" * 8915800,"UHPO4+2",31.38,24.443,0,0,2,0,0,0,3 * 1,891,1,580,1,330 * 334.0082,"MTQ3.11","MTQ3.11" * 8915801,"U(HPO4)2 (aq)",7.1128,46.833,0,0,0,0,0,0,3 * 1,891,2,580,2,330 * 429.9875,"MTQ3.11","MTQ3.11" * 8915802,"U(HPO4)3-2",-32.6352,67.564,0,0,-2,0,0,0,3 * 1,891,3,580,3,330 * 525.9668,"MTQ3.11","MTQ3.11" * 8915803,"U(HPO4)4-4",-110.876,88.483,0,0,-4,0,0,0,3 * 1,891,4,580,4,330 * 621.9461,"MTQ3.11","MTQ3.11" * 8935800,"UO2HPO4 (aq)",-8.7864,19.615,0,0,0,0,0,0,3 * 1,893,1,330,1,580 * 366.007,"NEA_2003","MTQ3.11" * 8935802,"UO2H2PO4+",-15.4808,20.693,0,0,1,0,0,0,3 * 1,893,2,330,1,580 * 367.0149,"NEA_2003","n.a." * 8935805,"UO2PO4-",0,13.23,0,0,-1,0,0,0,2 * 1,893,1,580 * 364.9991,"NEA_2003","n.a." * 4605800,"MgPO4-",12.9704,4.654,0,0,-1,5.4,0,2,2 * 1,460,1,580 * 119.2764,"SCD3.02 (1993 GMa)","MTQ3.11" * 4605802,"MgHPO4 (aq)",-3,15.175,0,0,0,0,0,1,3 * 1,460,1,330,1,580 * 120.2843,"NIST 46.7","NIST 46.7" * 1505800,"CaHPO4 (aq)",-3,15.035,0,0,0,0,0,1,3 * 1,150,1,330,1,580 * 136.0573,"NIST 46.7","NIST 46.7" * 1505801,"CaPO4-",12.9704,6.46,0,0,-1,5.4,0,2,2 * 1,150,1,580 * 135.0494,"SCD3.02 (1993 GMa)","MTQ3.11" * 1505802,"CaH2PO4+",-6,20.923,0,0,1,5.4,0,0,3 * 1,150,2,330,1,580 * 137.0652,"NIST 46.7","NIST 46.7" * 8005800,"SrHPO4 (aq)",0,14.74,0,0,0,0,0,0,3 * 1,800,1,330,1,580 * 183.5993,"NIST 46.7","n.a." * 8005801,"SrH2PO4+",0,20.4,0,0,1,0,0,0,3 * 1,800,2,330,1,580 * 184.6072,"NIST 46.7","n.a." * 5005800,"NaHPO4-",0,13.445,0,0,-1,5.4,0,1,3 * 1,500,1,330,1,580 * 118.9691,"NIST 46.7","n.a." * 4105800,"KHPO4-",0,13.255,0,0,-1,5.4,0,1,3 * 1,410,1,330,1,580 * 135.0776,"NIST 46.7","n.a." * 3905800,"InH2PO4+2",0,22.61,0,0,2,0,0,0,3 * 1,390,1,580,2,330 * 211.8054,"NIST 46.7","n.a." * 5905800,"PuH2PO4+2",0,22.07,0,0,2,0,0,0,3 * 1,590,1,580,2,330 * 340.9874,"Runde02","n.a." * 5505800,"NpO2HPO4-",0,15.28,0,0,-1,0,0,0,3 * 1,550,1,580,1,330 * 364.9694,"KaszRund99","n.a." * 2905801,"GaH2PO4+2",0,21.66,0,0,2,0,0,0,3 * 1,290,1,580,2,330 * 166.7104,"NIST 46.7","n.a." * 2905800,"GaHPO4+",0,20.76,0,0,1,0,0,0,3 * 1,290,1,580,1,330 * 165.7024,"NIST 46.7","n.a." * 305801,"AlHPO4+",0,20.01,0,0,1,0,0,0,3 * 1,30,1,580,1,330 * 122.9609,"NIST 46.7","n.a." * 305800,"Al2PO4+3",0,18.98,0,0,3,0,0,0,2 * 2,30,1,580 * 148.9344,"NIST 46.7","n.a." * 3105801,"GdPO4 (aq)",0,12.19,0,0,0,0,0,0,2 * 1,310,1,580 * 252.2214,"NIST 46.7","n.a." * 3105800,"GdHPO4+",0,18.285,0,0,1,0,0,0,3 * 1,310,1,580,1,330 * 253.2294,"NIST 46.7","n.a." * 6005801,"PbH2PO4+",0,21.073,0,0,1,0,0,0,3 * 1,600,1,580,2,330 * 304.1773,"NIST 46.7","n.a." * 6005800,"PbHPO4 (aq)",0,15.475,0,0,0,0,0,0,3 * 1,600,1,580,1,330 * 303.1693,"NIST 46.7","n.a." * 1605800,"CdHPO4 (aq)",0,16.08,0,0,0,0,0,0,3 * 1,160,1,580,1,330 * 208.3788,"NIST 46.7","n.a." * 9505800,"ZnHPO4 (aq)",0,15.69,0,0,0,0,0,1,3 * 1,950,1,580,1,330 * 161.3493,"NIST 46.7","n.a." * 2115801,"CrHPO4+",0,26.06,0,0,1,0,0,0,4 * 1,211,1,580,3,330,-2,2 * 147.9758,"NIST 46.7","n.a." * 2315800,"CuHPO4 (aq)",0,16.5,0,0,0,0,0,1,3 * 1,231,1,580,1,330 * 159.5254,"NIST 46.7","n.a." * 9025800,"VOH2PO4+",0,23.18,0,0,1,0,0,0,3 * 1,902,1,580,2,330 * 163.9264,"NIST 46.7","n.a." * 4705800,"MnHPO4 (aq)",0,15.8,0,0,0,0,0,1,3 * 1,470,1,580,1,330 * 150.9174,"NIST 46.7","n.a." * 8935801,"UO2H3PO4+2",0,22.481,0,0,2,0,0,0,3 * 1,893,1,580,3,330 * 368.0232,"NEA_2003","n.a." * 455800,"AmH2PO4+2",28,22.573,0,0,2,0,0,0,3 * 1,45,1,580,2,330 * 339.9874,"NIST 46.7","NIST 46.7" * 3105803,"GdH2PO4+2",0,22.313,0,0,2,0,0,0,3 * 1,310,1,580,2,330 * 254.2374,"NIST 46.7","n.a." * 3105802,"Gd(HPO4)2-",0,34.72,0,0,-1,0,0,0,3 * 1,310,2,580,2,330 * 349.2088,"NIST 46.7","n.a." * 8055801,"YPO4 (aq)",0,12.6,0,0,0,0,0,0,2 * 1,805,1,580 * 183.8814,"Spahiu95","Spahiu95" * 8055800,"YHPO4+",0,18.28,0,0,1,0,0,0,3 * 1,805,1,580,1,330 * 184.8894,"Spahiu95","Spahiu95" * 4205800,"LaH2PO4+2",0,21.99,0,0,2,0,0,0,3 * 1,420,1,580,2,330 * 235.8934,"NIST 46.7","n.a." * 8055802,"YH2PO4+2",0,22.223,0,0,2,0,0,0,3 * 1,805,1,580,2,330 * 185.8974,"NIST 46.7","n.a." * 4105804,"K2HPO4 (aq)",0,13.5,0,0,0,0,0,1,3 * 2,410,1,580,1,330 * 174.1834,"NIST 46.7","n.a." * 4105803,"K2PO4-",0,2.26,0,0,-1,0,0,2,2 * 2,410,1,580 * 173.1754,"NIST 46.7","n.a." * 4105802,"KH2PO4 (aq)",0,19.873,0,0,0,0,0,0,3 * 1,410,1,580,2,330 * 136.0894,"NIST 46.7","n.a." * 4105801,"KPO4-2",15,1.43,0,0,-2,0,0,2,2 * 1,410,1,580 * 134.0734,"NIST 46.7","n.a." * 5005804,"Na2HPO4 (aq)",0,13.32,0,0,0,0,0,1,3 * 2,500,1,580,1,330 * 141.959,"NIST 46.7","n.a." * 5005803,"Na2PO4-",0,2.59,0,0,-1,0,0,2,2 * 2,500,1,580 * 140.951,"NIST 46.7","n.a." * 5005802,"NaH2PO4 (aq)",0,19.873,0,0,0,0,0,0,3 * 1,500,1,580,2,330 * 119.9772,"NIST 46.7","n.a." * 5005801,"NaPO4-2",8,1.43,0,0,-2,0,0,2,2 * 1,500,1,580 * 117.9612,"NIST 46.7","NIST 46.7" * 4405800,"LiHPO4-",0,13.53,0,0,-1,0,0,0,3 * 1,440,1,580,1,330 * 102.9184,"NIST 46.7","n.a." * 3300601,"HAsO3-2",59.4086,-23.27,0,0,-2,0,0,0,2 * 1,60,-2,330 * 123.9278,"NordArch02","MTQ3.11" * 3300600,"H2AsO3-",27.62,-9.17,0,0,-1,0,0,1,2 * 1,60,-1,330 * 124.9357,"NordArch02","NordArch02" * 3300612,"H3AsO4",-13.25,21.09,0,0,0,0,0,-1,2 * 1,61,3,330 * 141.94,"NordArch02","NordArch02" * 3300610,"HAsO4-2",-18.2,11.8,0,0,-2,0,0,1,2 * 1,61,1,330 * 139.9272,"NordArch02","NordArch02" * 3300611,"H2AsO4-",-21.22,18.79,0,0,-1,0,0,0,2 * 1,61,2,330 * 140.9351,"NordArch02","NordArch02" * 7400020,"Sb(OH)4-1",0,-11.82,0,0,-1,0,0,0,3 * 1,740,1,2,-1,330 * 189.7774,"Iakov04","n.a." * 7403302,"Sb(OH)2+",0,1.38,0,0,1,0,0,0,3 * 1,740,1,330,-1,2 * 155.7626,"Iakov04","n.a." * 3301400,"HCO3-",-14.6,10.329,0,0,-1,5.4,0,1,2 * 1,330,1,140 * 61.0171,"PlumBus82","PlumBus82" * 3301401,"H2CO3* (aq)",-32,16.681,0,0,0,0,0,0,2 * 2,330,1,140 * 62.025,"PlumBus82","PlumBus82" * 9021401,"VOOHCO3-",0,1.52,0,0,-1,0,0,0,4 * 1,902,1,140,-1,330,1,2 * 143.9557,"Wanty92","n.a." * 9021400,"VOCO3 (aq)",13.7,3.47,0,0,0,0,0,0,2 * 1,902,1,140 * 126.9484,"Wanty92","Wanty92" * 5531402,"NpO2(CO3)3-4",-41.8,22.1,0,0,-4,0,0,0,2 * 1,553,3,140 * 449.0182,"NIST 46.7","NIST 46.7" * 5531401,"NpO2(CO3)2-2",-10,17.9,0,0,-2,0,0,0,2 * 1,553,2,140 * 389.0088,"NIST 46.7","NIST 46.7" * 5531400,"NpO2CO3 (aq)",0,9.77,0,0,0,0,0,0,2 * 1,553,1,140 * 328.9994,"NIST 46.7","n.a." * 8021401,"Th(OH)3CO3-",0,-.5,0,0,-1,0,0,0,4 * 1,802,1,140,-3,330,3,2 * 343.0713,"NIST 46.7","n.a." * 8021400,"Th(CO3)5-6",0,32.3,0,0,-6,0,0,0,2 * 1,802,5,140 * 532.087,"NIST 46.7","n.a." * 1901400,"CmCO3+",0,7.94,0,0,1,0,0,0,2 * 1,190,1,140 * 307.0094,"NIST 46.7","n.a." * 4501401,"Lu(CO3)2-",0,13.93,0,0,-1,0,0,0,2 * 1,450,2,140 * 294.9858,"NIST 46.7","n.a." * 4501400,"LuCO3+",0,8,0,0,1,0,0,0,2 * 1,450,1,140 * 234.9764,"NIST 46.7","n.a." * 7801401,"Sm(CO3)2-",0,13.09,0,0,-1,0,0,0,2 * 1,780,2,140 * 270.3788,"NIST 46.7","n.a." * 7801400,"SmCO3+",0,7.71,0,0,1,0,0,0,2 * 1,780,1,140 * 210.3694,"NIST 46.7","n.a." * 5201401,"Nd(CO3)2-",0,12.73,0,0,-1,0,0,0,2 * 1,520,2,140 * 264.2588,"NIST 46.7","n.a." * 5201400,"NdCO3+",0,7.53,0,0,1,0,0,0,2 * 1,520,1,140 * 204.2494,"NIST 46.7","n.a." * 5851401,"Pr(CO3)2-",0,12.63,0,0,-1,0,0,0,2 * 1,585,2,140 * 260.9268,"NIST 46.7","n.a." * 5851400,"PrCO3+",0,7.48,0,0,1,0,0,0,2 * 1,585,1,140 * 200.9174,"NIST 46.7","n.a." * 1351402,"CeHCO3+2",0,12.67,0,0,2,0,0,0,3 * 1,135,1,140,1,330 * 201.1334,"NIST 46.7","n.a." * 1351401,"Ce(CO3)2-",0,12.32,0,0,-1,0,0,0,2 * 1,135,2,140 * 260.1348,"NIST 46.7","n.a." * 1351400,"CeCO3+",0,7.31,0,0,1,0,0,0,2 * 1,135,1,140 * 200.1254,"NIST 46.7","n.a." * 4201401,"La(CO3)2-",0,11.86,0,0,-1,0,0,0,2 * 1,420,2,140 * 258.9248,"NIST 46.7","n.a." * 4201400,"LaCO3+",0,6.98,0,0,1,0,0,0,2 * 1,420,1,140 * 198.9154,"NIST 46.7","n.a." * 2151400,"CsCO3-",0,-.29,0,0,-1,0,0,0,2 * 1,215,1,140 * 192.9144,"NIST 46.7","n.a." * 6001400,"Pb(CO3)2-2",0,9.94,0,0,-2,0,0,4,2 * 1,600,2,140 * 327.2184,"NIST 46.7","n.a." * 6001401,"PbCO3 (aq)",0,6.53,0,0,0,0,0,2,2 * 1,600,1,140 * 267.2092,"NIST 46.7","n.a." * 3101401,"Gd(CO3)2-",0,13.04,0,0,-1,0,0,4,2 * 1,310,2,140 * 277.2688,"NIST 46.7","n.a." * 3101400,"GdCO3+",0,7.64,0,0,1,0,0,2,2 * 1,310,1,140 * 217.2594,"NIST 46.7","n.a." * 9501401,"ZnCO3 (aq)",0,4.76,0,0,0,0,0,2,2 * 1,950,1,140 * 125.3992,"NIST 46.7","n.a." * 9501400,"ZnHCO3+",0,11.829,0,0,1,0,0,1,3 * 1,950,1,330,1,140 * 126.4071,"NIST 46.7","n.a." * 3611401,"HgCO3 (aq)",0,18.29,0,0,0,0,0,2,4 * 1,361,-2,2,2,330,1,140 * 260.5944,"NIST 46.7","n.a." * 3611402,"Hg(CO3)2-2",0,21.74,0,0,-2,0,0,2,4 * 1,361,-2,2,2,330,2,140 * 320.6036,"NIST 46.7","n.a." * 3611403,"HgHCO3+",0,22.51,0,0,1,0,0,2,4 * 1,361,-2,2,3,330,1,140 * 261.6023,"NIST 46.7","n.a." * 1601400,"CdHCO3+",0,11.83,0,0,1,0,0,0,3 * 1,160,1,140,1,330 * 173.4168,"ParkApp99","n.a." * 6001402,"PbHCO3+",0,13.23,0,0,1,0,0,0,3 * 1,600,1,140,1,330 * 268.2073,"ParkApp99","n.a." * 1601401,"CdCO3 (aq)",0,4.37,0,0,0,0,0,2,2 * 1,160,1,140 * 172.4192,"NIST 46.7","n.a." * 1601403,"Cd(CO3)2-2",0,7.23,0,0,-2,0,0,2,2 * 1,160,2,140 * 232.4284,"NIST 46.7","n.a." * 8051401,"Y(CO3)2-",0,11.86,0,0,-1,0,0,4,2 * 1,805,2,140 * 208.9288,"NIST 46.7","n.a." * 8051400,"YCO3+",0,7.73,0,0,1,0,0,2,2 * 1,805,1,140 * 148.9194,"NIST 46.7","n.a." * 8911400,"U(CO3)5-6",-20,34,0,0,-6,0,0,0,2 * 1,891,5,140 * 538.076,"NEA_2003","NEA_2003" * 1508931,"Ca2UO2(CO3)3 (aq)",0,30.55,0,0,0,0,0,0,3 * 2,150,1,893,3,140 * 530.216,"Moll97","n.a." * 1508930,"CaUO2(CO3)3-2",0,25.4,0,0,-2,0,0,0,3 * 1,150,1,893,3,140 * 490.136,"Moll97","n.a." * 8931405,"(UO2)3CO3(OH)3+",0,.649,0,0,1,0,0,0,4 * 3,893,1,140,-3,330,3,2 * 921.1147,"NEA_2003","n.a." * 8931404,"(UO2)2CO3(OH)3-",0,-.861,0,0,-1,0,0,0,4 * 2,893,1,140,-3,330,3,2 * 651.0869,"NEA_2003","n.a." * 8931403,"(UO2)3(CO3)6-6",-62.7,54,0,0,-6,0,0,0,2 * 3,893,6,140 * 1170.1398,"NEA_2003","NEA_2003" * 2311400,"CuCO3 (aq)",0,6.77,0,0,0,0,0,2,2 * 1,231,1,140 * 123.5552,"NIST 46.7","n.a." * 2311402,"CuHCO3+",0,12.129,0,0,1,0,0,1,3 * 1,231,1,330,1,140 * 124.5631,"NIST 46.7","NIST 46.7" * 2311401,"Cu(CO3)2-2",0,10.2,0,0,-2,0,0,0,2 * 1,231,2,140 * 183.5644,"NIST 46.7","n.a." * 5401401,"NiCO3 (aq)",0,4.57,0,0,0,0,0,2,2 * 1,540,1,140 * 118.6992,"NIST 46.7","n.a." * 5401400,"NiHCO3+",0,12.42,0,0,1,0,0,1,3 * 1,540,1,330,1,140 * 119.7071,"NIST 46.7","n.a." * 2001400,"CoCO3 (aq)",0,4.28,0,0,0,0,0,2,2 * 1,200,1,140 * 118.9424,"NIST 46.7","n.a." * 2001401,"CoHCO3+",0,12.22,0,0,1,0,0,1,3 * 1,200,1,330,1,140 * 119.9503,"NIST 46.7","n.a." * 2801400,"FeHCO3+",0,11.429,0,0,1,6,0,1,3 * 1,280,1,330,1,140 * 116.8641,"NIST 46.7","n.a." * 4701400,"MnHCO3+",-10.6,11.629,0,0,1,5,0,1,3 * 1,470,1,330,1,140 * 115.9551,"NIST 46.7","NIST 46.7" * 8931400,"UO2CO3 (aq)",5,9.94,0,0,0,0,0,2,2 * 1,893,1,140 * 330.0369,"NEA_2003","NEA_2003" * 8931401,"UO2(CO3)2-2",18.5,16.61,0,0,-2,0,0,4,2 * 1,893,2,140 * 390.0461,"NEA_2003","NEA_2003" * 8931402,"UO2(CO3)3-4",-39.2,21.84,0,0,-4,0,0,6,2 * 1,893,3,140 * 450.0553,"NEA_2003","NEA_2003" * 5921402,"PuO2(CO3)3-5",0,5.5,0,0,-5,0,0,0,2 * 1,592,3,140 * 456.0182,"Runde02","n.a." * 5921401,"PuO2(CO3)2-3",0,6.5,0,0,-3,0,0,0,2 * 1,592,2,140 * 396.0088,"Runde02","n.a." * 5921400,"PuO2CO3-",0,5.1,0,0,-1,0,0,0,2 * 1,592,1,140 * 335.9994,"Runde02","n.a." * 1101401,"BeCO3 (aq)",0,6.2546,0,0,0,0,0,2,2 * 1,110,1,140 * 69.0214,"NIST46.4","MTQ3.11" * 4601400,"MgCO3 (aq)",10,2.92,0,0,0,0,0,2,2 * 1,460,1,140 * 84.3142,"NIST 46.7","NIST 46.7" * 4601401,"MgHCO3+",-9.6,11.34,0,0,1,4,0,1,3 * 1,460,1,330,1,140 * 85.3221,"NIST 46.7","NIST 46.7" * 5931402,"PuO2(CO3)3-4",-38,17.5,0,0,-4,0,0,0,2 * 1,593,3,140 * 456.0182,"Runde02","NIST 46.7" * 5931401,"PuO2(CO3)2-2",0,15,0,0,-2,0,0,0,2 * 1,593,2,140 * 396.0088,"Runde02","n.a." * 5931400,"PuO2CO3 (aq)",0,9.4,0,0,0,0,0,0,2 * 1,593,1,140 * 335.9994,"Runde02","n.a." * 5911401,"Pu(CO3)5-6",0,32.7,0,0,-6,0,0,0,2 * 1,591,5,140 * 544.047,"Runde02","n.a." * 5911400,"Pu(CO3)4-4",0,34.1,0,0,-4,0,0,0,2 * 1,591,4,140 * 484.0376,"Runde02","n.a." * 5901402,"Pu(CO3)3-3",0,15.4,0,0,-3,0,0,0,2 * 1,590,3,140 * 424.0282,"Runde02","n.a." * 5901401,"Pu(CO3)2-",0,12.9,0,0,-1,0,0,0,2 * 1,590,2,140 * 364.0188,"Runde02","n.a." * 5901400,"PuCO3+",0,8.1,0,0,1,0,0,0,2 * 1,590,1,140 * 304.0094,"Runde02","n.a." * 5521401,"Np(CO3)4-4",0,35.1,0,0,-4,0,0,0,2 * 1,552,4,140 * 477.0376,"KaszRund99","n.a." * 5521400,"Np(CO3)5-6",0,33.9,0,0,-6,0,0,0,2 * 1,552,5,140 * 537.047,"KaszRund99","n.a." * 5501404,"NpO2OH(CO3)2-4",0,-8,0,0,-4,0,0,0,4 * 1,550,2,140,-1,330,1,2 * 406.0161,"KaszRund99","n.a." * 5501403,"NpO2(OH)2CO3-3",0,-20.89,0,0,-3,0,0,0,4 * 1,550,1,140,-2,330,2,2 * 363.014,"NIST 46.6","n.a." * 3611404,"HgOHCO3-",0,11.36,0,0,-1,0,0,0,4 * 1,361,1,140,1,330,-1,2 * 277.6121,"NIST 46.7","n.a." * 1501400,"CaHCO3+",0,11.434,0,0,1,6,0,1,3 * 1,150,1,330,1,140 * 101.0951,"PlumBus82","PlumBus82" * 1501401,"CaCO3 (aq)",16,3.22,0,0,0,0,0,2,2 * 1,140,1,150 * 100.0872,"PlumBus82","PlumBus82" * 8001401,"SrCO3 (aq)",21,2.81,0,0,0,0,0,2,2 * 1,800,1,140 * 147.6292,"NIST 46.7","NIST 46.7" * 8001400,"SrHCO3+",10.4,11.539,0,0,1,6,0,1,3 * 1,800,1,330,1,140 * 148.6371,"NIST 46.7","NIST 46.7" * 1001401,"BaCO3 (aq)",14,2.71,0,0,0,0,0,2,2 * 1,100,1,140 * 197.3392,"NIST 46.7","NIST 46.7" * 1001400,"BaHCO3+",8.4,11.309,0,0,1,6,0,1,3 * 1,100,1,330,1,140 * 198.3471,"NIST 46.7","NIST 46.7" * 5001400,"NaCO3-",-20.35,1.27,0,0,-1,5.4,0,2,2 * 1,500,1,140 * 82.999,"NIST 46.7","NIST2.1.1" * 5001401,"NaHCO3 (aq)",-28.3301,10.029,0,0,0,0,0,1,3 * 1,500,1,330,1,140 * 84.0069,"NIST 46.7","NIST2.1.1" * 8061401,"Yb(CO3)2-",0,13.86,0,0,-1,0,0,4,2 * 1,806,2,140 * 293.0588,"NIST 46.7","n.a." * 8061400,"YbCO3+",0,8.06,0,0,1,0,0,2,2 * 1,806,1,140 * 233.0494,"NIST 46.7","n.a." * 301400,"Al2(OH)2CO3+2",0,4.31,0,0,2,0,0,0,4 * 2,30,1,140,-2,330,2,2 * 147.987,"NIST 46.7","n.a." * 9501402,"Zn(CO3)2-2",0,7.3,0,0,-2,0,0,4,2 * 1,950,2,140 * 185.3887,"NIST 46.7","n.a." * 4701401,"MnCO3 (aq)",0,4.7,0,0,0,0,0,2,2 * 1,470,1,140 * 114.9474,"NIST 46.7","n.a." * 451401,"Am(CO3)2-",0,12.3,0,0,-1,0,0,0,2 * 1,45,2,140 * 363.0188,"NIST 46.7","n.a." * 451400,"AmCO3+",0,7.8,0,0,1,0,0,0,2 * 1,45,1,140 * 303.0094,"NIST 46.7","n.a." * 8061402,"YbHCO3+2",0,12.58,0,0,2,0,0,0,3 * 1,806,1,140,1,330 * 234.0574,"NIST 46.7","n.a." * 8011402,"TbHCO3+2",0,12.88,0,0,2,0,0,0,3 * 1,801,1,140,1,330 * 219.9424,"NIST 46.7","n.a." * 8011401,"Tb(CO3)2-",0,13.34,0,0,-1,0,0,0,2 * 1,801,2,140 * 278.9438,"NIST 46.7","n.a." * 8011400,"TbCO3+",0,7.71,0,0,1,0,0,0,2 * 1,801,1,140 * 218.9344,"NIST 46.7","n.a." * 3101402,"GdHCO3+2",0,12.98,0,0,2,0,0,0,3 * 1,310,1,140,1,330 * 218.2674,"NIST 46.7","n.a." * 2601402,"EuHCO3+2",14.4,12.58,0,0,2,0,0,0,3 * 1,260,1,140,1,330 * 212.9814,"NIST 46.7","NIST 46.7" * 2601401,"Eu(CO3)2-",20,13.19,0,0,-1,0,0,0,2 * 1,260,2,140 * 271.9828,"NIST 46.7","NIST 46.7" * 2601400,"EuCO3+",4,7.73,0,0,1,0,0,0,2 * 1,260,1,140 * 211.9734,"NIST 46.7","NIST 46.7" * 8051402,"YHCO3+2",0,12.73,0,0,2,0,0,0,3 * 1,805,1,140,1,330 * 149.9274,"NIST 46.7","n.a." * 4601402,"Mg2CO3+2",0,3.59,0,0,2,0,0,2,2 * 2,460,1,140 * 108.6334,"NIST 46.7","n.a." * 5501402,"NpO2(CO3)3-5",0,5.54,0,0,-5,0,0,0,2 * 1,550,3,140 * 449.0182,"KaszRund99","n.a." * 5501401,"NpO2(CO3)2-3",0,6.55,0,0,-3,0,0,0,2 * 1,550,2,140 * 389.0088,"KaszRund99","n.a." * 5501400,"NpO2CO3-",0,4.81,0,0,-1,0,0,0,2 * 1,550,1,140 * 328.9994,"KaszRund99","n.a." * 3307701,"H2SiO4-2",61,-23.04,0,0,-2,5.4,0,2,2 * 1,770,-2,330 * 94.1,"NIST46.4","NIST46.4" * 3307700,"H3SiO4-",20,-9.84,0,0,-1,4,0,1,2 * 1,770,-1,330 * 95.107,"NIST46.4","NIST46.4" * 307700,"AlH3SiO4+2",66.6,-2.38,0,0,2,5.4,0,0,3 * 1,30,1,770,-1,330 * 122.089,"Pokr96","Pokr96" * 8937700,"UO2H3SiO4+",0,-1.9111,0,0,1,0,0,0,3 * 1,893,1,770,-1,330 * 365.135,"NIST46.4","MTQ3.11" * 9990001,"S-Hg(OH)2",0,2.31,0,0,0,0,0,0,2 * 1,361,1,1401 * 234.6,"Dzomor90","Dzomor90" * 9990002,"S-Zn(OH)2(s)",0,-11.7,0,0,0,0,0,0,4 * 1,950,-2,330,1,1401,2,2 * 99.3845,"Dzomor90","Dzomor90" * 9990003,"S-Ferrihydrite(s)",0,-2.5,0,0,0,0,0,0,4 * 1,281,-3,330,1,1401,3,2 * 106.87,"Dzomor90","Dzomor90" * 2810900,"FeH2BO3+2",0,-1.91,0,0,2,0,0,0,3 * 1,281,1,90,-1,330 * 116.6721,"NIST 46.7","n.a." * 6000901,"Pb(H2BO3)2 (aq)",0,-13.31,0,0,0,0,0,0,3 * 1,600,2,90,-2,330 * 328.8401,"NIST 46.7","n.a." * 6000900,"PbH2BO3+",0,-6.54,0,0,1,0,0,0,3 * 1,600,1,90,-1,330 * 268.015,"NIST 46.7","n.a." * 1600901,"Cd(H2BO3)2 (aq)",0,-15.01,0,0,0,0,0,0,3 * 1,160,2,90,-2,330 * 234.05,"NIST 46.7","n.a." * 1600900,"CdH2BO3+",0,-7.32,0,0,1,0,0,0,3 * 1,160,1,90,-1,330 * 173.2245,"NIST 46.7","n.a." * 9500901,"Zn(H2BO3)2 (aq)",0,-14.4,0,0,0,0,0,0,3 * 1,950,2,90,-2,330 * 187.0201,"NIST 46.7","n.a." * 9500900,"ZnH2BO3+",0,-7.84,0,0,1,0,0,0,3 * 1,950,1,90,-1,330 * 126.195,"NIST 46.7","n.a." * 2310901,"Cu(H2BO3)2 (aq)",0,-11.59,0,0,0,0,0,0,3 * 1,231,2,90,-2,330 * 185.1962,"NIST 46.7","n.a." * 2310900,"CuH2BO3+",0,-5.26,0,0,1,0,0,0,3 * 1,231,1,90,-1,330 * 124.3711,"NIST 46.7","n.a." * 4400900,"LiH2BO3 (aq)",0,-8.9,0,0,0,0,0,0,3 * 1,440,1,90,-1,330 * 67.7641,"NIST 46.7","n.a." * 903300,"H10(BO3)4-2",50.4,-15.032,0,0,-2,0,0,2,2 * 4,90,-2,330 * 245.3164,"NIST 46.7","NIST 46.7" * 3300900,"H2BO3-",13,-9.236,0,0,-1,2.5,0,1,2 * 1,90,-1,330 * 60.8251,"NIST 46.7","NIST 46.7" * 3300901,"H5(BO3)2-",8.4,-9.306,0,0,-1,2.5,0,2,2 * 2,90,-1,330 * 122.6581,"NIST 46.7","NIST 46.7" * 3300902,"H8(BO3)3-",29.4,-7.306,0,0,-1,2.5,0,3,2 * 3,90,-1,330 * 184.4911,"NIST 46.7","NIST 46.7" * 200901,"AgH2BO3 (aq)",0,-8.04,0,0,0,2.5,0,0,3 * 1,20,1,90,-1,330 * 168.6933,"NIST 46.7","n.a." * 4600901,"MgH2BO3+",13,-7.7,0,0,1,2.5,0,0,3 * 1,460,1,90,-1,330 * 85.1301,"NIST 46.7","NIST 46.7" * 1500901,"CaH2BO3+",17,-7.48,0,0,1,2.5,0,0,3 * 1,150,1,90,-1,330 * 100.9031,"NIST 46.7","NIST 46.7" * 8000901,"SrH2BO3+",17,-7.69,0,0,1,2.5,0,0,3 * 1,800,1,90,-1,330 * 148.4451,"NIST 46.7","NIST 46.7" * 1000901,"BaH2BO3+",17,-7.75,0,0,1,2.5,0,0,3 * 1,100,1,90,-1,330 * 198.1551,"NIST 46.7","NIST 46.7" * 5000901,"NaH2BO3 (aq)",0,-9.04,0,0,0,2.5,0,0,3 * 1,500,1,90,-1,330 * 83.8149,"NIST 46.7","n.a." * 2123300,"HCrO4-",2,6.51,0,0,-1,0,0,0,2 * 1,212,1,330 * 117.0016,"NIST 46.7","NIST 46.7" * 2123301,"H2CrO4 (aq)",39,6.31,0,0,0,0,0,0,2 * 1,212,2,330 * 118.0095,"NIST 46.7","NIST 46.7" * 2123302,"Cr2O7-2",-15,14.56,0,0,-2,0,0,0,3 * 2,212,2,330,-1,2 * 215.9879,"NIST 46.7","NIST 46.7" * 1502120,"CaCrO4 (aq)",0,2.77,0,0,0,0,0,0,2 * 1,150,1,212 * 156.074,"PerkPa00","n.a." * 2812120,"FeCrO4+",14,7.65,0,0,1,0,0,0,2 * 1,281,1,212 * 171.841,"NIST 46.7","NIST 46.7" * 8022120,"ThCrO4+2",18,8.47,0,0,2,0,0,0,2 * 1,802,1,212 * 348.034,"NIST 46.7","NIST 46.7" * 4902120,"NH4Cr2O7-",-35,15.44,0,0,-1,0,0,0,4 * 1,490,2,212,2,330,-1,2 * 234.0273,"NIST 46.7","NIST 46.7" * 4102121,"KCr2O7-",-44,15.32,0,0,-1,0,0,0,4 * 1,410,2,212,2,330,-1,2 * 255.0907,"NIST 46.7","NIST 46.7" * 2121800,"CrO3Cl-",0,7.3086,0,0,-1,0,0,0,4 * 1,212,1,180,2,330,-1,2 * 135.4472,"MTQ3.11","MTQ3.11" * 2127320,"CrO3SO4-2",0,8.9937,0,0,-2,0,0,0,4 * 1,212,1,732,2,330,-1,2 * 196.0572,"MTQ3.11","MTQ3.11" * 2125800,"CrO3H2PO4-",0,29.3634,0,0,-1,0,0,0,4 * 1,212,4,330,1,580,-1,2 * 196.9814,"MTQ3.11","MTQ3.11" * 2125801,"CrO3HPO4-2",0,26.6806,0,0,-2,0,0,0,4 * 1,212,3,330,1,580,-1,2 * 195.9735,"MTQ3.11","MTQ3.11" * 5522120,"NpCrO4+2",6,9.61,0,0,2,0,0,0,2 * 1,552,1,212 * 352.994,"NIST 46.7","NIST 46.7" * 5002120,"NaCrO4-",0,.6963,0,0,-1,0,0,0,2 * 1,212,1,500 * 138.9835,"MTQ3.11","MTQ3.11" * 4102120,"KCrO4-",0,.57,0,0,-1,0,0,0,2 * 1,410,1,212 * 155.092,"NIST 46.7","n.a." * 3304801,"HMoO4-",22,4.24,0,0,-1,0,0,0,2 * 1,480,1,330 * 160.9455,"Cruy2000","Cruy2000" * 3304802,"MoO3(H2O)3(aq)",-25,8.24,0,0,0,0,0,0,2 * 1,480,2,330 * 161.9534,"Cruy2000","Cruy2000" * 3304803,"Mo7O24-6",-258,52.86,0,0,-6,0,0,0,3 * 7,480,8,330,-4,2 * 1055.5653,"CruyDra2002","CruyDra2002" * 3304804,"HMo7O24-5",-248,58.58,0,0,-5,0,0,0,3 * 7,480,9,330,-4,2 * 1056.5731,"CruyDra2002","CruyDra2002" * 304801,"AlMo6O21-3",0,54.9925,0,0,-3,0,0,0,4 * 6,480,1,30,6,330,-3,2 * 938.6086,"NIST46.4","MTQ3.11" * 204801,"Ag2MoO4 (aq)",-1.18,-.4219,0,0,0,0,0,0,2 * 1,480,2,20 * 375.674,"Bard85","Bard85" * 4803302,"H3Mo8O28-5",-275,69.74,0,0,-5,0,0,0,3 * 8,480,11,330,-4,2 * 1218.5276,"CruyDra2002","CruyDra2002" * 4803301,"Mo8O26-4",-285,74.38,0,0,-4,0,0,0,3 * 8,480,12,330,-6,2 * 1183.505,"CruyDra2002","CruyDra2002" * 4803300,"H2Mo6O21-4",-218,51.17,0,0,-4,0,0,0,3 * 6,480,8,330,-3,2 * 913.6437,"CruyDra2002","CruyDra2002" * 4604800,"MgMoO4(aq)",5.8,3.03,0,0,0,0,0,0,2 * 1,460,1,480 * 184.2496,"Essing92","JP_Provis02" * 1504800,"CaMoO4(aq)",7.1,2.57,0,0,0,0,0,0,2 * 1,150,1,480 * 200.0176,"Essing92","JP_Provis02" * 8043301,"HW7O24-5",-328,71.24,0,0,-5,0,0,0,3 * 7,804,9,330,-4,2 * 1671.7788,"CruyMerw87","CruyMerw87" * 8043300,"W7O24-6",-333,65.19,0,0,-6,0,0,0,3 * 7,804,8,330,-4,2 * 1670.7708,"CruyMerw87","CruyMerw87" * 3308041,"WO3(H2O)3(aq)",12,8.7,0,0,0,0,0,0,2 * 1,804,2,330 * 249.84,"WoodSam01","WoodSam01" * 3308040,"HWO4-",13,3.62,0,0,-1,0,0,0,2 * 1,804,1,330 * 248.832,"WesDru84","WesDru84" * 4608040,"MgWO4(aq)",5.8,3.03,0,0,0,0,0,0,2 * 1,460,1,804 * 272.136,"JP_Provis02","JP_Provis02" * 1508040,"CaWO4(aq)",7.1,2.57,0,0,0,0,0,0,2 * 1,150,1,804 * 287.904,"JP_Provis02","JP_Provis02" * 8043303,"H2W12O42-10",-542,111.5,0,0,-10,0,0,0,3 * 12,804,14,330,-6,2 * 2879.9082,"CruyMerw87","CruyMerw87" * 8043302,"H2W6O22-6",-231,48.4,0,0,-6,0,0,0,3 * 6,804,6,330,-2,2 * 1456.9614,"CruyMerw87","CruyMerw87" * 9033303,"VO4-3",24,-13.49,0,0,-3,0,0,0,2 * 1,903,-1,330 * 114.9403,"Cruy2000","Cruy2000" * 9033302,"VO2+",-54,15.89,0,0,1,0,0,0,3 * 1,903,-2,2,3,330 * 82.939,"Cruy2000","Cruy2000" * 9033301,"H2VO4-",-7,8.75,0,0,-1,0,0,0,2 * 1,903,1,330 * 116.9561,"Cruy2000","Cruy2000" * 9030020,"V2O7-4",-47,-1.1,0,0,-4,0,0,0,2 * 2,903,-1,2 * 213.8811,"Cruy2000","Cruy2000" * 9030021,"HV2O7-3",-47.5,10.2,0,0,-3,0,0,0,3 * 2,903,-1,2,1,330 * 214.889,"Cruy2000","Cruy2000" * 9030024,"V4O12-4",-123,42.6,0,0,-4,0,0,0,3 * 4,903,-4,2,4,330 * 395.7632,"Cruy2000","Cruy2000" * 9030025,"V10O28-6",0,134.14,0,0,-6,0,0,0,3 * 10,903,-12,2,14,330 * 957.409,"Cruy2000","n.a." * 9033308,"H3V10O28-3",0,150.38,0,0,-3,0,0,0,3 * 10,903,17,330,-12,2 * 960.4084,"Cruy2000","n.a." * 9033307,"V6O18-6",0,60.79,0,0,-6,0,0,0,3 * 6,903,6,330,-6,2 * 593.6298,"Cruy2000","n.a." * 9033306,"V5O15-5",-156,52.02,0,0,-5,0,0,0,3 * 5,903,5,330,-5,2 * 494.6915,"Cruy2000","Cruy2000" * 9033305,"HV4O13-5",0,31.33,0,0,-5,0,0,0,3 * 4,903,3,330,-3,2 * 412.7605,"Cruy2000","n.a." * 9033304,"V4O13-6",-82,20.55,0,0,-6,0,0,0,3 * 4,903,2,330,-3,2 * 411.7525,"Cruy2000","Cruy2000" * 9033300,"H2V2O7-2",-44,19.8,0,0,-2,0,0,0,3 * 2,903,2,330,-1,2 * 215.8919,"Cruy2000","Cruy2000" * 9030026,"HV10O28-5",-412,141.5,0,0,-5,0,0,0,3 * 10,903,-12,2,15,330 * 958.4169,"Cruy2000","Cruy2000" * 9030027,"H2V10O28-4",0,145.7,0,0,-4,0,0,0,3 * 10,903,-12,2,16,330 * 959.4248,"Cruy2000","n.a." * 4109032,"KHV10O28-4",0,142.91,0,0,-4,0,0,0,4 * 1,410,10,903,15,330,-12,2 * 997.5204,"NIST 46.7","n.a." * 5009032,"NaHV10O28-4",0,143.68,0,0,-4,0,0,0,4 * 1,500,10,903,15,330,-12,2 * 981.4082,"NIST 46.7","n.a." * 4109031,"K2V10O28-4",0,139.9,0,0,-4,0,0,0,4 * 2,410,10,903,14,330,-12,2 * 1035.6144,"NIST 46.7","n.a." * 4109030,"KV10O28-5",0,137.83,0,0,-5,0,0,0,4 * 1,410,10,903,14,330,-12,2 * 996.5124,"NIST 46.7","n.a." * 5009031,"Na2V10O28-4",0,139.33,0,0,-4,0,0,0,4 * 2,500,10,903,14,330,-12,2 * 1003.39,"NIST 46.7","n.a." * 5009030,"NaV10O28-5",0,137.03,0,0,-5,0,0,0,4 * 1,500,10,903,14,330,-12,2 * 980.4002,"NIST 46.7","n.a." * 3309171,"H-Benzoate (aq)",-.46,4.202,0,0,0,0,0,0,2 * 1,917,1,330 * 122.1239,"NIST 46.6","NIST 46.6" * 6009170,"Pb-(Benzoate)2 (aq)",0,3.6,0,0,0,0,0,0,2 * 1,600,2,917 * 449.4299,"NIST 46.6","n.a." * 8939170,"UO2-Benzoate+",10,2.51,0,0,1,0,0,0,2 * 1,893,1,917 * 391.1478,"NIST 46.6","NIST 46.6" * 8029170,"Th-Benzoate+3",10,4.53,0,0,3,0,0,0,2 * 1,802,1,917 * 353.16,"NIST 46.6","NIST 46.6" * 4509171,"Lu-(Benzoate)2+",0,4.85,0,0,1,0,0,0,2 * 1,450,2,917 * 417.207,"NIST 46.6","n.a." * 4509170,"Lu-Benzoate+2",11,2.57,0,0,2,0,0,0,2 * 1,450,1,917 * 296.087,"NIST 46.6","NIST 46.6" * 8069171,"Yb-(Benzoate)2+",0,4.8,0,0,1,0,0,0,2 * 1,806,2,917 * 415.28,"NIST 46.6","n.a." * 8069170,"Yb-Benzoate+2",12,2.59,0,0,2,0,0,0,2 * 1,806,1,917 * 294.16,"NIST 46.6","NIST 46.6" * 8809171,"Tm-(Benzoate)2+",0,4.71,0,0,1,0,0,0,2 * 1,880,2,917 * 411.174,"NIST 46.6","n.a." * 8809170,"Tm-Benzoate+2",10,2.59,0,0,2,0,0,0,2 * 1,880,1,917 * 290.054,"NIST 46.6","NIST 46.6" * 2509171,"Er-(Benzoate)2+",0,4.71,0,0,1,0,0,0,2 * 1,250,2,917 * 409.499,"NIST 46.6","n.a." * 2509170,"Er-Benzoate+2",11,2.57,0,0,2,0,0,0,2 * 1,250,1,917 * 288.379,"NIST 46.6","NIST 46.6" * 3709171,"Ho-(Benzoate)2+",0,4.85,0,0,1,0,0,0,2 * 1,370,2,917 * 407.17,"NIST 46.6","n.a." * 3709170,"Ho-Benzoate+2",10,2.66,0,0,2,0,0,0,2 * 1,370,1,917 * 286.05,"NIST 46.6","NIST 46.6" * 2409171,"Dy-(Benzoate)2+",0,4.72,0,0,1,0,0,0,2 * 1,240,2,917 * 404.74,"NIST 46.6","n.a." * 2409170,"Dy-Benzoate+2",10,2.61,0,0,2,0,0,0,2 * 1,240,1,917 * 283.62,"NIST 46.6","NIST 46.6" * 8019171,"Tb-(Benzoate)2+",0,4.73,0,0,1,0,0,0,2 * 1,801,2,917 * 401.165,"NIST 46.6","n.a." * 8019170,"Tb-Benzoate+2",9.2,2.6,0,0,2,0,0,0,2 * 1,801,1,917 * 280.045,"NIST 46.6","NIST 46.6" * 3109171,"Gd-(Benzoate)2+",0,4.78,0,0,1,0,0,0,2 * 1,310,2,917 * 399.49,"NIST 46.6","n.a." * 3109170,"Gd-Benzoate+2",8.7,2.73,0,0,2,0,0,0,2 * 1,310,1,917 * 278.37,"NIST 46.6","NIST 46.6" * 2609171,"Eu-(Benzoate)2+",0,4.87,0,0,1,0,0,0,2 * 1,260,2,917 * 394.204,"NIST 46.6","n.a." * 2609170,"Eu-Benzoate+2",7.9,2.81,0,0,2,0,0,0,2 * 1,260,1,917 * 273.084,"NIST 46.6","NIST 46.6" * 7809171,"Sm-(Benzoate)2+",0,5,0,0,1,0,0,0,2 * 1,780,2,917 * 392.6,"NIST 46.6","n.a." * 7809170,"Sm-Benzoate+2",7.5,2.86,0,0,2,0,0,0,2 * 1,780,1,917 * 271.48,"NIST 46.6","NIST 46.6" * 5209171,"Nd-(Benzoate)2+",0,4.91,0,0,1,0,0,0,2 * 1,520,2,917 * 386.48,"NIST 46.6","n.a." * 5209170,"Nd-Benzoate+2",7.9,2.8,0,0,2,0,0,0,2 * 1,520,1,917 * 265.36,"NIST 46.6","NIST 46.6" * 5859171,"Pr-(Benzoate)2+",0,4.68,0,0,1,0,0,0,2 * 1,585,2,917 * 383.148,"NIST 46.6","n.a." * 5859170,"Pr-Benzoate+2",8.3,2.71,0,0,2,0,0,0,2 * 1,585,1,917 * 262.028,"NIST 46.6","NIST 46.6" * 4209171,"La-(Benzoate)2+",0,4.64,0,0,1,0,0,0,2 * 1,420,2,917 * 381.146,"NIST 46.6","n.a." * 4209170,"La-Benzoate+2",7.9,2.57,0,0,2,0,0,0,2 * 1,420,1,917 * 260.026,"NIST 46.6","NIST 46.6" * 6009171,"Pb-Benzoate+",0,2.43,0,0,1,0,0,0,2 * 1,917,1,600 * 328.316,"NIST 46.6","n.a." * 309171,"Al-Benzoate+2",0,1.74,0,0,2,0,0,0,2 * 1,917,1,30 * 148.0975,"NIST 46.6","n.a." * 309172,"AlOH-Benzoate+",0,-.56,0,0,1,0,0,0,4 * 1,917,1,30,-1,330,1,2 * 165.1049,"NIST46.2","NIST46.2" * 9509171,"Zn-Benzoate+",0,1.33,0,0,1,0,0,0,2 * 1,917,1,950 * 186.506,"NIST 46.6","n.a." * 1609171,"Cd-Benzoate+",0,1.83,0,0,1,0,0,0,2 * 1,917,1,160 * 233.526,"NIST 46.6","n.a." * 1609172,"Cd-(Benzoate)2 (aq)",0,2.36,0,0,0,0,0,0,2 * 2,917,1,160 * 354.642,"NIST 46.6","n.a." * 2319171,"Cu-Benzoate+",0,2.03,0,0,1,0,0,0,2 * 1,917,1,231 * 184.662,"NIST 46.6","n.a." * 209171,"Ag-Benzoate (aq)",0,.91,0,0,0,0,0,0,2 * 1,917,1,20 * 228.9842,"NIST 46.6","n.a." * 5409171,"Ni-Benzoate+",12,1.09,0,0,1,0,0,0,2 * 1,917,1,540 * 179.806,"NIST 46.6","NIST 46.6" * 2009171,"Co-Benzoate+",12,1.09,0,0,1,0,0,0,2 * 1,200,1,917 * 180.0492,"NIST 46.6","NIST 46.6" * 4709171,"Mn-Benzoate+",12,1.03,0,0,1,0,0,0,2 * 1,917,1,470 * 176.054,"NIST 46.6","NIST 46.6" * 4609171,"Mg-Benzoate+",0,.64,0,0,1,0,0,0,2 * 1,917,1,460 * 145.421,"NIST 46.6","n.a." * 1509171,"Ca-Benzoate+",0,.74,0,0,1,0,0,0,2 * 1,917,1,150 * 161.194,"NIST 46.6","n.a." * 3309181,"H[Phenylacetate]",2.1757,4.31,0,0,0,0,0,0,2 * 1,918,1,330 * 136.1499,"NIST46.2","NIST46.2" * 9509181,"Zn[Phenylacetate]",0,1.57,0,0,1,0,0,0,2 * 1,918,1,950 * 200.532,"NIST46.2","NIST46.2" * 2319181,"Cu[Phenylacetate]",0,1.97,0,0,1,0,0,0,2 * 1,918,1,231 * 198.688,"NIST46.2","NIST46.2" * 2009181,"Co[Phenylacetate]",0,.591,0,0,1,0,0,0,2 * 1,200,1,918 * 194.0752,"NIST46.4","NIST46.2" * 2009182,"Co[Phenylacetate]2",0,.4765,0,0,0,0,0,0,2 * 1,200,2,918 * 329.2172,"NIST46.4","NIST46.2" * 3309201,"H-iPhthalate-",1,4.5,0,0,-1,0,0,0,2 * 1,920,1,330 * 165.1249,"NIST 46.6","NIST 46.6" * 3309202,"H2-iPhthalate (aq)",1,8,0,0,0,0,0,0,2 * 1,920,2,330 * 166.1328,"NIST 46.6","NIST 46.6" * 6009200,"PbH-(iPhthalate)2-",0,8.46,0,0,-1,0,0,0,3 * 1,600,2,920,1,330 * 536.2579,"NIST 46.6","n.a." * 4509200,"Lu-iPhthalate+",19,3.87,0,0,1,0,0,0,2 * 1,450,1,920 * 338.997,"NIST 46.6","NIST 46.6" * 8069200,"Yb-iPhthalate+",17,3.88,0,0,1,0,0,0,2 * 1,806,1,920 * 337.07,"NIST 46.6","NIST 46.6" * 8809200,"Tm-iPhthalate+",17,3.86,0,0,1,0,0,0,2 * 1,880,1,920 * 332.964,"NIST 46.6","NIST 46.6" * 2509200,"Er-iPhthalate+",16,3.87,0,0,1,0,0,0,2 * 1,250,1,920 * 331.289,"NIST 46.6","NIST 46.6" * 3709200,"Ho-iPhthalate+",15,3.84,0,0,1,0,0,0,2 * 1,370,1,920 * 328.96,"NIST 46.6","NIST 46.6" * 2409200,"Dy-iPhthalate+",12,3.96,0,0,1,0,0,0,2 * 1,240,1,920 * 326.53,"NIST 46.6","NIST 46.6" * 8019200,"Tb-iPhthalate+",12,3.93,0,0,1,0,0,0,2 * 1,801,1,920 * 322.955,"NIST 46.6","NIST 46.6" * 3109200,"Gd-iPhthalate+",12,4.02,0,0,1,0,0,0,2 * 1,310,1,920 * 321.28,"NIST 46.6","NIST 46.6" * 2609200,"Eu-iPhthalate+",11,4.06,0,0,1,0,0,0,2 * 1,260,1,920 * 315.994,"NIST 46.6","NIST 46.6" * 7809200,"Sm-iPhthalate+",10,4.11,0,0,1,0,0,0,2 * 1,780,1,920 * 314.39,"NIST 46.6","NIST 46.6" * 5209200,"Nd-iPhthalate+",11,3.94,0,0,1,0,0,0,2 * 1,520,1,920 * 308.27,"NIST 46.6","NIST 46.6" * 5859200,"Pr-iPhthalate+",13,3.84,0,0,1,0,0,0,2 * 1,585,1,920 * 304.938,"NIST 46.6","NIST 46.6" * 4209200,"La-iPhthalate+",14,3.44,0,0,1,0,0,0,2 * 1,420,1,920 * 302.936,"NIST 46.6","NIST 46.6" * 8059200,"Y-iPhthalate+",15,3.8,0,0,1,0,0,0,2 * 1,805,1,920 * 252.94,"NIST 46.6","NIST 46.6" * 6009201,"Pb-iPhthalate (aq)",0,3.09,0,0,0,0,0,0,2 * 1,920,1,600 * 371.317,"NIST 46.6","NIST 46.6" * 6009202,"Pb-(iPhthalate)2-2",0,4.18,0,0,-2,0,0,0,2 * 2,920,1,600 * 535.434,"NIST 46.6","n.a." * 6009203,"PbH-iPhthalate+",0,6.67,0,0,1,0,0,0,3 * 1,920,1,600,1,330 * 372.3249,"NIST 46.6","n.a." * 1609201,"Cd-iPhthalate (aq)",0,2.25,0,0,0,0,0,0,2 * 1,920,1,160 * 276.527,"NIST 46.6","n.a." * 1609202,"Cd-(iPhthalate)2-2",0,2.99,0,0,-2,0,0,0,2 * 2,920,1,160 * 440.644,"NIST 46.6","n.a." * 1609203,"CdH-iPhthalate+",0,5.73,0,0,1,0,0,0,3 * 1,920,1,160,1,330 * 277.5349,"NIST 46.6","NIST 46.6" * 1509200,"Ca-iPhthalate (aq)",0,2,0,0,0,0,0,0,2 * 1,920,1,150 * 204.195,"NIST 46.6","n.a." * 1009201,"Ba-iPhthalate (aq)",0,1.55,0,0,0,0,0,0,2 * 1,920,1,100 * 301.447,"NIST 46.6","n.a." * 3309551,"H[Diethylamine]",-53.1368,10.933,0,0,1,0,0,0,2 * 1,330,1,955 * 74.1459,"NIST46.2","NIST46.2" * 9509551,"Zn[Diethylamine]",0,2.74,0,0,2,0,0,0,2 * 1,950,1,955 * 138.528,"SCD2.62","SCD2.62" * 9509552,"Zn[Diethylamine]2",0,5.27,0,0,2,0,0,0,2 * 1,950,2,955 * 211.666,"SCD2.62","SCD2.62" * 9509553,"Zn[Diethylamine]3",0,7.71,0,0,2,0,0,0,2 * 1,950,3,955 * 284.804,"SCD2.62","SCD2.62" * 9509554,"Zn[Diethylamine]4",0,9.84,0,0,2,0,0,0,2 * 1,950,4,955 * 357.942,"SCD2.62","SCD2.62" * 1609551,"Cd[Diethylamine]",0,2.73,0,0,2,0,0,0,2 * 1,160,1,955 * 185.548,"SCD2.62","SCD2.62" * 1609552,"Cd[Diethylamine]2",0,4.86,0,0,2,0,0,0,2 * 1,160,2,955 * 258.686,"SCD2.62","SCD2.62" * 1609553,"Cd[Diethylamine]3",0,6.37,0,0,2,0,0,0,2 * 1,160,3,955 * 331.824,"SCD2.62","SCD2.62" * 1609554,"Cd[Diethylamine]4",0,7.32,0,0,2,0,0,0,2 * 1,160,4,955 * 404.962,"SCD2.62","SCD2.62" * 209551,"Ag[Diethylamine]",0,2.98,0,0,1,0,0,0,2 * 1,20,1,955 * 181.0062,"NIST46.2","NIST46.2" * 209552,"Ag[Diethylamine]2",-44.7688,6.38,0,0,1,0,0,0,2 * 1,20,2,955 * 254.1442,"NIST46.2","NIST46.2" * 5409551,"Ni[Diethylamine]",0,2.78,0,0,2,0,0,0,2 * 1,540,1,955 * 131.828,"SCD2.62","SCD2.62" * 5409552,"Ni[Diethylamine]2",0,4.97,0,0,2,0,0,0,2 * 1,540,2,955 * 204.966,"SCD2.62","SCD2.62" * 5409553,"Ni[Diethylamine]3",0,6.72,0,0,2,0,0,0,2 * 1,540,3,955 * 278.104,"SCD2.62","SCD2.62" * 5409554,"Ni[Diethylamine]4",0,7.93,0,0,2,0,0,0,2 * 1,540,4,955 * 351.242,"SCD2.62","SCD2.62" * 5409555,"Ni[Diethylamine]5",0,8.87,0,0,2,0,0,0,2 * 1,540,5,955 * 424.38,"SCD2.62","SCD2.62" * 3309561,"H[Butylamine]",-58.2831,10.64,0,0,1,0,0,0,2 * 1,330,1,956 * 74.1459,"NIST46.2","NIST46.2" * 3619561,"Hg[Butylamine]",0,14.84,0,0,2,0,0,0,4 * 1,361,1,956,2,330,-2,2 * 273.7232,"NIST46.2","NIST46.2" * 3619562,"Hg[Butylamine]2",0,24.24,0,0,2,0,0,0,4 * 1,361,2,956,2,330,-2,2 * 346.8612,"NIST46.2","NIST46.2" * 3619563,"Hg[Butylamine]3",0,25.1,0,0,2,0,0,0,4 * 1,361,3,956,2,330,-2,2 * 419.9992,"NIST46.2","NIST46.2" * 3619564,"Hg[Butylamine]4",0,26.1,0,0,2,0,0,0,4 * 1,361,4,956,2,330,-2,2 * 493.1372,"NIST46.2","NIST46.2" * 209561,"Ag[Butylamine]",-16.736,3.42,0,0,1,0,0,0,2 * 1,20,1,956 * 181.0062,"NIST46.2","NIST46.2" * 209562,"Ag[Butylamine]2",-52.7184,7.47,0,0,1,0,0,0,2 * 1,20,2,956 * 254.1442,"NIST46.2","NIST46.2" * 3309581,"H[Methylamine]",-55.2288,10.64,0,0,1,0,0,0,2 * 1,330,1,958 * 32.0649,"NIST46.2","NIST46.2" * 1609581,"Cd[Methylamine]",0,2.75,0,0,2,0,0,0,2 * 1,160,1,958 * 143.467,"NIST46.2","NIST46.2" * 1609582,"Cd[Methylamine]2",-29.288,4.81,0,0,2,0,0,0,2 * 1,160,2,958 * 174.524,"NIST46.2","NIST46.2" * 1609583,"Cd[Methylamine]3",0,5.94,0,0,2,0,0,0,2 * 1,160,3,958 * 205.581,"NIST46.2","NIST46.2" * 1609584,"Cd[Methylamine]4",-58.576,6.55,0,0,2,0,0,0,2 * 1,160,4,958 * 236.638,"NIST46.2","NIST46.2" * 3619581,"Hg[Methylamine]",0,14.76,0,0,2,0,0,0,4 * 1,361,1,958,-2,2,2,330 * 231.6422,"NIST46.2","NIST46.2" * 3619582,"Hg[Methylamine]2",0,23.96,0,0,2,0,0,0,4 * 1,361,2,958,-2,2,2,330 * 262.6992,"NIST46.2","NIST46.2" * 3619583,"Hg[Methylamine]3",0,24.3,0,0,2,0,0,0,4 * 1,361,3,958,-2,2,2,330 * 293.7562,"NIST46.2","NIST46.2" * 3619584,"Hg[Methylamine]4",0,24.6,0,0,2,0,0,0,4 * 1,361,4,958,-2,2,2,330 * 324.8132,"NIST46.2","NIST46.2" * 2319581,"Cu[Methylamine]",0,4.11,0,0,2,0,0,0,2 * 1,231,1,958 * 94.603,"NIST46.2","NIST46.2" * 2319582,"Cu[Methylamine]2",0,7.51,0,0,2,0,0,0,2 * 1,231,2,958 * 125.66,"NIST46.2","NIST46.2" * 2319583,"Cu[Methylamine]3",0,10.21,0,0,2,0,0,0,2 * 1,231,3,958 * 156.717,"NIST46.2","NIST46.2" * 2319584,"Cu[Methylamine]4",0,12.08,0,0,2,0,0,0,2 * 1,231,4,958 * 187.774,"NIST46.2","NIST46.2" * 209581,"Ag[Methylamine]",-12.552,3.07,0,0,1,0,0,0,2 * 1,20,1,958 * 138.9252,"NIST46.2","NIST46.2" * 209582,"Ag[Methylamine]2",-48.9528,6.89,0,0,1,0,0,0,2 * 1,20,2,958 * 169.9822,"NIST46.2","NIST46.2" * 5409581,"Ni[Methylamine]",0,2.23,0,0,2,0,0,0,2 * 1,540,1,958 * 89.747,"NIST46.2","NIST46.2" * 3309591,"H[Dimethylamine]",-50.208,10.774,0,0,1,0,0,0,2 * 1,330,1,959 * 46.0919,"NIST46.2","NIST46.2" * 209591,"Ag[Dimethylamine]2",-40.5848,5.37,0,0,1,0,0,0,2 * 1,20,2,959 * 198.0362,"NIST46.2","NIST46.2" * 5409591,"Ni[Dimethylamine]",0,1.47,0,0,2,0,0,0,2 * 1,540,1,959 * 103.774,"NIST46.2","NIST46.2" * 3309611,"H[Hexylamine]",-58.576,10.63,0,0,1,0,0,0,2 * 1,330,1,961 * 102.1999,"NIST46.2","NIST46.2" * 209611,"Ag[Hexylamine]",-25.104,3.54,0,0,1,0,0,0,2 * 1,20,1,961 * 209.0602,"NIST46.2","NIST46.2" * 209612,"Ag[Hexylamine]2",-53.1368,7.55,0,0,1,0,0,0,2 * 1,20,2,961 * 310.2522,"NIST46.2","NIST46.2" * 3309631,"H[Ethylenediamine]",-49.3,9.928,0,0,1,0,0,0,2 * 1,330,1,963 * 61.1069,"NIST 46.8","NIST 46.8" * 3309632,"H2[Ethylenediamine]",-94.4,16.776,0,0,2,0,0,0,2 * 2,330,1,963 * 62.1148,"NIST 46.8","NIST 46.8" * 6009631,"Pb[Ethylenediamine]",0,5.04,0,0,2,0,0,0,2 * 1,600,1,963 * 267.299,"NIST46.2","NIST46.2" * 6009632,"Pb[Ethylenediamine]2",0,8.5,0,0,2,0,0,0,2 * 1,600,2,963 * 327.398,"NIST46.2","NIST46.2" * 9509631,"Zn[Ethylenediamine]",-29.288,5.66,0,0,2,0,0,0,2 * 1,950,1,963 * 125.489,"NIST46.2","NIST46.2" * 9509632,"Zn[Ethylenediamine]2",-48.116,10.6,0,0,2,0,0,0,2 * 1,950,2,963 * 185.588,"NIST46.2","NIST46.2" * 9509633,"Zn[Ethylenediamine]3",-71.5464,13.9,0,0,2,0,0,0,2 * 1,950,3,963 * 245.687,"NIST46.2","NIST46.2" * 1609631,"Cd[Ethylenediamine]",-28.4512,5.41,0,0,2,0,0,0,2 * 1,160,1,963 * 172.509,"NIST46.2","NIST46.2" * 1609632,"Cd[Ethylenediamine]2",-55.6472,9.9,0,0,2,0,0,0,2 * 1,160,2,963 * 232.608,"NIST46.2","NIST46.2" * 1609633,"Cd[Ethylenediamine]3",-82.4248,11.6,0,0,2,0,0,0,2 * 1,160,3,963 * 292.707,"NIST46.2","NIST46.2" * 3619631,"Hg[Ethylenediamine]",0,20.4,0,0,2,0,0,0,4 * 1,361,1,963,-2,2,2,330 * 260.6842,"NIST46.2","NIST46.2" * 3619632,"Hg[Ethylenediamine]2",-173.2176,29.3,0,0,2,0,0,0,4 * 1,361,2,963,-2,2,2,330 * 320.7832,"NIST46.2","NIST46.2" * 3619633,"HgH[Ethylenediamine]2",0,34.7,0,0,3,0,0,0,4 * 1,361,2,963,-2,2,3,330 * 321.7911,"NIST46.2","NIST46.2" * 2319632,"Cu[Ethylenediamine]2",-104,19.58,0,0,2,0,0,0,2 * 1,231,2,963 * 183.744,"NIST 46.8","NIST 46.8" * 2319631,"Cu[Ethylenediamine]",-52.7,10.5,0,0,2,0,0,0,2 * 1,231,1,963 * 123.645,"NIST 46.8","NIST 46.8" * 209631,"Ag[Ethylenediamine]",-48.9528,4.6,0,0,1,0,0,0,2 * 1,20,1,963 * 167.9672,"NIST46.2","NIST46.2" * 209632,"Ag[Ethylenediamine]2",-52.3,7.5,0,0,1,0,0,0,2 * 1,20,2,963 * 228.0662,"NIST46.2","NIST46.2" * 209633,"AgH[Ethylenediamine]",-75.312,11.99,0,0,2,0,0,0,3 * 1,20,1,963,1,330 * 168.9751,"NIST46.2","NIST46.2" * 209634,"Ag2[Ethylenediamine]",0,6.5,0,0,2,0,0,0,2 * 2,20,1,963 * 275.8354,"NIST46.2","NIST46.2" * 209635,"Ag2[Ethylenediamine]2",-97.0688,12.7,0,0,2,0,0,0,2 * 2,20,2,963 * 335.9344,"NIST46.2","NIST46.2" * 209636,"Ag[HEthylenediamine]2",-150.2056,24,0,0,3,0,0,0,3 * 1,20,2,963,2,330 * 230.082,"NIST46.2","NIST46.2" * 209637,"AgH[Ethylenediamine]2",-47.6976,8.4,0,0,2,0,0,0,3 * 1,20,2,963,1,330 * 229.0741,"NIST46.2","NIST46.2" * 5409631,"Ni[Ethylenediamine]",-37.656,7.32,0,0,2,0,0,0,2 * 1,540,1,963 * 118.789,"NIST46.2","NIST46.2" * 5409632,"Ni[Ethylenediamine]2",-76.5672,13.5,0,0,2,0,0,0,2 * 1,540,2,963 * 178.888,"NIST46.2","NIST46.2" * 5409633,"Ni[Ethylenediamine]3",-117.152,17.6,0,0,2,0,0,0,2 * 1,540,3,963 * 238.987,"NIST46.2","NIST46.2" * 2009631,"Co[Ethylenediamine]",-28,5.5,0,0,2,0,0,0,2 * 1,200,1,963 * 119.0322,"NIST46.4","NIST46.4" * 2009632,"Co[Ethylenediamine]2",-58.5,10.1,0,0,2,0,0,0,2 * 1,200,2,963 * 179.1312,"NIST46.4","NIST46.4" * 2009633,"Co[Ethylenediamine]3",-92.8,13.2,0,0,2,0,0,0,2 * 1,200,3,963 * 239.2302,"NIST46.4","NIST46.4" * 2019631,"Co[Ethylenediamine]2",0,34.7,0,0,3,0,0,0,2 * 1,201,2,963 * 179.1312,"NIST46.4","NIST46.2" * 2019632,"Co[Ethylenediamine]3",0,48.69,0,0,3,0,0,0,2 * 1,201,3,963 * 239.2302,"NIST46.4","NIST46.2" * 2809631,"Fe[Ethylenediamine]",0,4.26,0,0,2,0,0,0,2 * 1,280,1,963 * 115.946,"NIST46.2","NIST46.2" * 2809632,"Fe[Ethylenediamine]2",0,7.73,0,0,2,0,0,0,2 * 1,280,2,963 * 176.045,"NIST46.2","NIST46.2" * 2809633,"Fe[Ethylenediamine]3",0,10.17,0,0,2,0,0,0,2 * 1,280,3,963 * 236.144,"NIST46.2","NIST46.2" * 4709631,"Mn[Ethylenediamine]",-11.7152,2.74,0,0,2,0,0,0,2 * 1,470,1,963 * 115.037,"NIST46.2","NIST46.2" * 4709632,"Mn[Ethylenediamine]2",-25.104,4.8,0,0,2,0,0,0,2 * 1,470,2,963 * 175.136,"NIST46.2","NIST46.2" * 2119631,"Cr[Ethylenediamine]2",0,22.57,0,0,3,0,0,0,4 * 1,211,2,963,-2,2,2,330 * 172.194,"NIST46.2","NIST46.2" * 2119632,"Cr[Ethylenediamine]3",0,29,0,0,3,0,0,0,4 * 1,211,3,963,-2,2,2,330 * 232.293,"NIST46.2","NIST46.2" * 4609631,"Mg[Ethylenediamine]",0,.37,0,0,2,0,0,0,2 * 1,460,1,963 * 84.404,"NIST46.2","NIST46.2" * 1509631,"Ca[Ethylenediamine]",0,.11,0,0,2,0,0,0,2 * 1,150,1,963 * 100.177,"NIST46.2","NIST46.2" * 3309641,"H[Propylamine]",-57.53,10.566,0,0,1,0,0,0,2 * 1,330,1,964 * 60.1189,"NIST46.2","NIST46.2" * 9509641,"Zn[Propylamine]",0,2.42,0,0,2,0,0,0,2 * 1,950,1,964 * 124.501,"SCD2.62","SCD2.62" * 9509642,"Zn[Propylamine]2",0,4.85,0,0,2,0,0,0,2 * 1,950,2,964 * 183.612,"SCD2.62","SCD2.62" * 9509643,"Zn[Propylamine]3",0,7.38,0,0,2,0,0,0,2 * 1,950,3,964 * 242.723,"SCD2.62","SCD2.62" * 9509644,"Zn[Propylamine]4",0,9.49,0,0,2,0,0,0,2 * 1,950,4,964 * 301.834,"SCD2.62","SCD2.62" * 1609641,"Cd[Propylamine]",0,2.62,0,0,2,0,0,0,2 * 1,160,1,964 * 171.521,"SCD2.62","SCD2.62" * 1609642,"Cd[Propylamine]2",0,4.64,0,0,2,0,0,0,2 * 1,160,2,964 * 230.632,"SCD2.62","SCD2.62" * 1609643,"Cd[Propylamine]3",0,6.03,0,0,2,0,0,0,2 * 1,160,3,964 * 289.743,"SCD2.62","SCD2.62" * 209641,"Ag[Propylamine]",-12.552,3.45,0,0,1,0,0,0,2 * 1,20,1,964 * 166.9792,"NIST46.2","NIST46.2" * 209642,"Ag[Propylamine]2",-53.1368,7.44,0,0,1,0,0,0,2 * 1,20,2,964 * 226.0902,"NIST46.2","NIST46.2" * 5409641,"Ni[Propylamine]",0,2.81,0,0,2,0,0,0,2 * 1,540,1,964 * 117.801,"SCD2.62","SCD2.62" * 5409642,"Ni[Propylamine]2",0,5.02,0,0,2,0,0,0,2 * 1,540,2,964 * 176.912,"SCD2.62","SCD2.62" * 5409643,"Ni[Propylamine]3",0,6.79,0,0,2,0,0,0,2 * 1,540,3,964 * 236.023,"SCD2.62","SCD2.62" * 5409644,"Ni[Propylamine]4",0,8.31,0,0,2,0,0,0,2 * 1,540,4,964 * 295.134,"SCD2.62","SCD2.62" * 3309651,"H[Isopropylamine]",-58.3668,10.67,0,0,1,0,0,0,2 * 1,330,1,965 * 60.1189,"NIST46.2","NIST46.2" * 9509651,"Zn[Isopropylamine]",0,2.37,0,0,2,0,0,0,2 * 1,950,1,965 * 124.501,"SCD2.62","SCD2.62" * 9509652,"Zn[Isopropylamine]2",0,4.67,0,0,2,0,0,0,2 * 1,950,2,965 * 183.612,"SCD2.62","SCD2.62" * 9509653,"Zn[Isopropylamine]3",0,7.14,0,0,2,0,0,0,2 * 1,950,3,965 * 242.723,"SCD2.62","SCD2.62" * 9509654,"Zn[Isopropylamine]4",0,9.44,0,0,2,0,0,0,2 * 1,950,4,965 * 301.834,"SCD2.62","SCD2.62" * 1609651,"Cd[Isopropylamine]",0,2.55,0,0,2,0,0,0,2 * 1,160,1,965 * 171.521,"SCD2.62","SCD2.62" * 1609652,"Cd[Isopropylamine]2",0,4.57,0,0,2,0,0,0,2 * 1,160,2,965 * 230.632,"SCD2.62","SCD2.62" * 1609653,"Cd[Isopropylamine]3",0,6.07,0,0,2,0,0,0,2 * 1,160,3,965 * 289.743,"SCD2.62","SCD2.62" * 1609654,"Cd[Isopropylamine]4",0,6.9,0,0,2,0,0,0,2 * 1,160,4,965 * 348.854,"SCD2.62","SCD2.62" * 3619651,"Hg[Isopropylamine]",0,14.85,0,0,2,0,0,0,4 * 1,361,1,965,-2,2,2,330 * 259.6962,"NIST46.2","NIST46.2" * 3619652,"Hg[Isopropylamine]2",0,24.37,0,0,2,0,0,0,4 * 1,361,2,965,-2,2,2,330 * 318.8072,"NIST46.2","NIST46.2" * 209651,"Ag[Isopropylamine]",-23.8488,3.67,0,0,1,0,0,0,2 * 1,20,1,965 * 166.9792,"NIST46.2","NIST46.2" * 209652,"Ag[Isopropylamine]2",-59.8312,7.77,0,0,1,0,0,0,2 * 1,20,2,965 * 226.0902,"NIST46.2","NIST46.2" * 5409651,"Ni[Isopropylamine]",0,2.71,0,0,2,0,0,0,2 * 1,540,1,965 * 117.801,"SCD2.62","SCD2.62" * 5409652,"Ni[Isopropylamine]2",0,4.86,0,0,2,0,0,0,2 * 1,540,2,965 * 176.912,"SCD2.62","SCD2.62" * 5409653,"Ni[Isopropylamine]3",0,6.57,0,0,2,0,0,0,2 * 1,540,3,965 * 236.023,"SCD2.62","SCD2.62" * 5409654,"Ni[Isopropylamine]4",0,7.83,0,0,2,0,0,0,2 * 1,540,4,965 * 295.134,"SCD2.62","SCD2.62" * 5409655,"Ni[Isopropylamine]5",0,8.43,0,0,2,0,0,0,2 * 1,540,5,965 * 354.245,"SCD2.62","SCD2.62" * 3309661,"H[Trimethylamine]",-36.8192,9.8,0,0,1,0,0,0,2 * 1,330,1,966 * 60.1189,"NIST46.2","NIST46.2" * 209661,"Ag[Trimetylamine]",0,1.701,0,0,1,0,0,0,2 * 1,20,1,966 * 166.9792,"SCD2.62","SCD2.62" * 3309671,"H-Citrate-2",3.3,6.396,0,0,-2,0,0,0,2 * 1,330,1,967 * 190.1099,"NIST 46.6","NIST 46.6" * 3309672,"H2-Citrate-",1.3,11.157,0,0,-1,0,0,0,2 * 2,330,1,967 * 191.1178,"NIST 46.6","NIST 46.6" * 3309673,"H3-Citrate (aq)",-2.7,14.285,0,0,0,0,0,0,2 * 3,330,1,967 * 192.1257,"NIST 46.6","NIST 46.6" * 6009671,"Pb-Citrate-",0,5.67,0,0,-1,0,0,0,2 * 1,600,1,967 * 396.302,"NIST 46.6","n.a." * 6009672,"Pb-(Citrate)2-4",0,6.53,0,0,-4,0,0,0,2 * 1,600,2,967 * 585.404,"NIST 46.6","n.a." * 309671,"Al-Citrate (aq)",0,9.98,0,0,0,0,0,0,2 * 1,30,1,967 * 216.0835,"NIST46.6","n.a." * 309672,"Al-(Citrate)2-3",0,14.83,0,0,-3,0,0,0,2 * 1,30,2,967 * 405.1855,"NIST46.6","n.a." * 309673,"AlH-Citrate+",0,12.85,0,0,1,0,0,0,3 * 1,30,1,967,1,330 * 217.0914,"NIST46.2","NIST46.2" * 8709671,"Tl-Citrate-2",0,1.48,0,0,-2,0,0,0,2 * 1,870,1,967 * 393.485,"NIST 46.6","n.a." * 9509671,"Zn-Citrate-",8,6.06,0,0,-1,0,0,0,2 * 1,950,1,967 * 254.492,"NIST 46.6","NIST 46.6" * 9509672,"Zn-(Citrate)2-4",25,7.44,0,0,-4,0,0,0,2 * 1,950,2,967 * 443.594,"NIST 46.6","NIST 46.6" * 9509673,"ZnH-Citrate (aq)",0,10.24,0,0,0,0,0,0,3 * 1,950,1,967,1,330 * 255.4999,"NIST 46.6","NIST 46.6" * 1609671,"Cd-Citrate-",8,4.98,0,0,-1,0,0,0,2 * 1,160,1,967 * 301.512,"NIST 46.6","NIST 46.6" * 1609672,"CdH-Citrate (aq)",3.3,9.44,0,0,0,0,0,0,3 * 1,160,1,967,1,330 * 302.5199,"NIST 46.6","NIST 46.6" * 1609673,"CdH2-Citrate+",0,12.89,0,0,1,0,0,0,3 * 1,160,1,967,2,330 * 303.5278,"NIST 46.6","n.a." * 1609674,"Cd-(Citrate)2-4",20,5.94,0,0,-4,0,0,0,2 * 1,160,2,967 * 490.614,"NIST 46.6","NIST 46.6" * 3619671,"Hg-Citrate-",0,18.38,0,0,-1,0,0,0,4 * 1,361,1,967,-2,2,2,330 * 389.6872,"NIST 46.6","n.a." * 2319671,"Cu-Citrate-",0,7.57,0,0,-1,0,0,0,2 * 1,231,1,967 * 252.648,"SCD2.62","SCD2.62" * 2319672,"Cu-(Citrate)2-4",0,8.9,0,0,-4,0,0,0,2 * 1,231,2,967 * 441.75,"SCD2.62","SCD2.62" * 2319673,"CuH-Citrate (aq)",11.3,11.02,0,0,0,0,0,0,3 * 1,231,1,967,1,330 * 253.6559,"NIST 46.6","NIST 46.6" * 2319674,"CuH2-Citrate+",0,13.23,0,0,1,0,0,0,3 * 1,231,1,967,2,330 * 254.6638,"SCD2.62","SCD2.62" * 2319675,"Cu2-(Citrate)2-2",41.84,16.9,0,0,-2,0,0,0,2 * 2,231,2,967 * 505.296,"NIST46.2","NIST46.2" * 5409671,"Ni-Citrate-",16,6.64,0,0,-1,0,0,0,2 * 1,540,1,967 * 247.792,"NIST 46.6","NIST 46.6" * 5409672,"NiH-Citrate (aq)",15.3,10.63,0,0,0,0,0,0,3 * 1,540,1,967,1,330 * 248.7999,"NIST 46.6","NIST 46.6" * 5409673,"NiH2-Citrate+",0,13.29,0,0,1,0,0,0,3 * 1,540,1,967,2,330 * 249.8078,"NIST 46.6","n.a." * 5409674,"Ni-(Citrate)2-4",12,9,0,0,-4,0,0,0,2 * 1,540,2,967 * 436.894,"NIST 46.6","NIST 46.6" * 5409675,"NiH-(Citrate)2-3",31.3,15,0,0,-3,0,0,0,3 * 1,540,2,967,1,330 * 437.9019,"NIST 46.6","NIST 46.6" * 2009671,"Co-Citrate-",0,6.19,0,0,-1,0,0,0,2 * 1,200,1,967 * 248.0352,"NIST 46.6","n.a." * 2009672,"CoH-Citrate (aq)",0,10.45,0,0,0,0,0,0,3 * 1,200,1,330,1,967 * 249.0431,"NIST 46.6","n.a." * 2009673,"CoH2-Citrate+",0,12.79,0,0,1,0,0,0,3 * 1,200,2,330,1,967 * 250.051,"NIST 46.6","n.a." * 2809671,"Fe-Citrate-",0,5.89,0,0,-1,0,0,0,2 * 1,280,1,967 * 244.949,"NIST 46.6","n.a." * 2809672,"FeH-Citrate (aq)",0,10.17,0,0,0,0,0,0,3 * 1,280,1,967,1,330 * 245.9569,"NIST 46.6","n.a." * 2819671,"Fe-Citrate (aq)",-28,13.13,0,0,0,0,0,0,2 * 1,281,1,967 * 244.949,"NIST 46.6","NIST 46.6" * 2819672,"FeH-Citrate+",0,14.4,0,0,1,0,0,0,3 * 1,281,1,967,1,330 * 245.9569,"NIST 46.6","n.a." * 4709671,"Mn-Citrate-",0,5.2,0,0,-1,0,0,0,2 * 1,470,1,967 * 244.04,"NIST 46.6","n.a." * 4709672,"MnH-Citrate (aq)",0,9.57,0,0,0,0,0,0,3 * 1,470,1,967,1,330 * 245.0479,"NIST 46.6","n.a." * 1109671,"Be-Citrate-",0,5.54,0,0,-1,0,0,0,2 * 1,110,1,967 * 198.1142,"NIST 46.6","n.a." * 1109672,"BeH-Citrate (aq)",0,9.35,0,0,0,0,0,0,3 * 1,110,1,330,1,967 * 199.1221,"NIST 46.6","n.a." * 1509671,"Ca-Citrate-",-8,4.87,0,0,-1,0,0,0,2 * 1,150,1,967 * 229.18,"NIST 46.6","NIST 46.6" * 1509672,"CaH-Citrate (aq)",-.7,9.256,0,0,0,0,0,0,3 * 1,150,1,967,1,330 * 230.1879,"NIST 46.6","NIST 46.6" * 1509673,"CaH2-Citrate+",0,12.59,0,0,1,0,0,0,3 * 1,150,1,967,2,330 * 231.1958,"NIST 46.6","n.a." * 4609671,"Mg-Citrate-",8,4.89,0,0,-1,0,0,0,2 * 1,460,1,967 * 213.407,"NIST 46.6","NIST 46.6" * 4609672,"MgH-Citrate (aq)",3.3,8.906,0,0,0,0,0,0,3 * 1,460,1,967,1,330 * 214.4149,"NIST 46.6","NIST 46.6" * 4609673,"MgH2-Citrate+",0,12.29,0,0,1,0,0,0,3 * 1,460,1,967,2,330 * 215.4228,"NIST 46.6","n.a." * 8009671,"Sr-Citrate-",0,4.43,0,0,-1,0,0,0,2 * 1,800,1,967 * 276.722,"NIST 46.6","n.a." * 8009672,"SrH-Citrate (aq)",0,8.98,0,0,0,0,0,0,3 * 1,800,1,330,1,967 * 277.7299,"NIST 46.6","n.a." * 8009673,"SrH2-Citrate+",0,12.49,0,0,1,0,0,0,3 * 1,800,2,330,1,967 * 278.7378,"NIST 46.6","NIST 46.6" * 1009671,"Ba-Citrate-",0,4.17,0,0,-1,0,0,0,2 * 1,100,1,967 * 326.432,"NIST 46.6","NIST 46.6" * 1009672,"BaH-Citrate (aq)",0,8.75,0,0,0,0,0,0,3 * 1,100,1,967,1,330 * 327.4399,"NIST 46.6","n.a." * 1009673,"BaH2-Citrate+",0,12.29,0,0,1,0,0,0,3 * 1,100,1,967,2,330 * 328.4478,"NIST 46.6","n.a." * 5009671,"Na-Citrate-2",1,1.39,0,0,-2,0,0,0,2 * 1,500,1,967 * 212.0918,"NIST 46.6","n.a." * 4109671,"K-Citrate-2",5.4,1.1,0,0,-2,0,0,0,2 * 1,410,1,967 * 228.2003,"NIST 46.6","NIST 46.6" * 2909670,"Ga-Citrate (aq)",0,11.96,0,0,0,0,0,0,2 * 1,290,1,967 * 258.825,"NIST 46.6","n.a." * 5709670,"Pd-Citrate-",-4,4.69,0,0,-1,0,0,0,2 * 1,570,1,967 * 295.522,"NIST 46.6","NIST 46.6" * 8939670,"UO2-Citrate-",0,8.69,0,0,-1,0,0,0,2 * 1,893,1,967 * 459.1298,"NIST 46.6","n.a." * 5509670,"NpO2-Citrate-2",0,3.53,0,0,-2,0,0,0,2 * 1,550,1,967 * 458.092,"NIST 46.6","n.a." * 1709670,"Cf-Citrate (aq)",0,9.87,0,0,0,0,0,0,2 * 1,170,1,967 * 440.102,"NIST 46.6","n.a." * 1259670,"Bk-Citrate (aq)",0,9.83,0,0,0,0,0,0,2 * 1,125,1,967 * 436.102,"NIST 46.6","n.a." * 1909670,"Cm-Citrate (aq)",0,9.67,0,0,0,0,0,0,2 * 1,190,1,967 * 436.102,"NIST 46.6","n.a." * 459670,"Am-Citrate (aq)",0,9.67,0,0,0,0,0,0,2 * 1,45,1,967 * 432.102,"NIST 46.6","n.a." * 4509670,"Lu-Citrate (aq)",0,9.67,0,0,0,0,0,0,2 * 1,450,1,967 * 364.069,"NIST 46.6","n.a." * 8069670,"Yb-Citrate (aq)",0,9.65,0,0,0,0,0,0,2 * 1,806,1,967 * 362.142,"NIST 46.6","n.a." * 8809670,"Tm-Citrate (aq)",0,9.55,0,0,0,0,0,0,2 * 1,880,1,967 * 358.036,"NIST 46.6","n.a." * 2509670,"Er-Citrate (aq)",0,9.41,0,0,0,0,0,0,2 * 1,250,1,967 * 356.361,"NIST 46.6","n.a." * 3709670,"Ho-Citrate (aq)",0,9.39,0,0,0,0,0,0,2 * 1,370,1,967 * 354.032,"NIST 46.6","n.a." * 2409670,"Dy-Citrate (aq)",0,9.34,0,0,0,0,0,0,2 * 1,240,1,967 * 351.602,"NIST 46.6","n.a." * 8019670,"Tb-Citrate (aq)",0,9.3,0,0,0,0,0,0,2 * 1,801,1,967 * 348.027,"NIST 46.6","n.a." * 3109670,"Gd-Citrate (aq)",0,9.38,0,0,0,0,0,0,2 * 1,310,1,967 * 346.352,"NIST 46.6","n.a." * 2609670,"Eu-Citrate (aq)",0,9.46,0,0,0,0,0,0,2 * 1,260,1,967 * 341.066,"NIST 46.6","n.a." * 7809670,"Sm-Citrate (aq)",0,9.59,0,0,0,0,0,0,2 * 1,780,1,967 * 339.462,"NIST 46.6","n.a." * 5209670,"Nd-Citrate (aq)",0,9.51,0,0,0,0,0,0,2 * 1,520,1,967 * 333.342,"NIST 46.6","n.a." * 5859670,"Pr-Citrate (aq)",0,9.5,0,0,0,0,0,0,2 * 1,585,1,967 * 330.01,"NIST 46.6","n.a." * 4209670,"La-Citrate (aq)",0,9.18,0,0,0,0,0,0,2 * 1,420,1,967 * 328.008,"NIST 46.6","n.a." * 2159670,"Cs-Citrate-2",0,.96,0,0,-2,0,0,0,2 * 1,215,1,967 * 322.007,"NIST 46.6","n.a." * 6809670,"Rb-Citrate-2",0,1.13,0,0,-2,0,0,0,2 * 1,680,1,967 * 274.5719,"NIST 46.6","n.a." * 4409670,"Li-Citrate-2",0,1.47,0,0,-2,0,0,0,2 * 1,440,1,967 * 196.041,"NIST 46.6","n.a." * 6009674,"PbH-(Citrate)2-3",0,12.04,0,0,-3,0,0,0,3 * 1,600,2,967,1,330 * 586.4019,"NIST 46.6","n.a." * 6009673,"PbH2-Citrate+",0,13.27,0,0,1,0,0,0,3 * 1,600,1,967,2,330 * 398.3079,"NIST 46.6","n.a." * 6009670,"PbH-Citrate (aq)",0,10.29,0,0,0,0,0,0,3 * 1,600,1,967,1,330 * 397.2999,"NIST 46.6","n.a." * 2819670,"FeOH-Citrate-",0,1.79,0,0,-1,0,0,0,4 * 1,281,1,967,-1,330,1,2 * 261.9563,"NIST 46.6","n.a." * 8029672,"Th-(Citrate)3-5",0,28.04,0,0,-5,0,0,0,2 * 1,802,3,967 * 799.346,"NIST 46.6","n.a." * 8029671,"Th-(Citrate)2-2",0,24.36,0,0,-2,0,0,0,2 * 1,802,2,967 * 610.244,"NIST 46.6","n.a." * 8029670,"Th-Citrate+",0,14.19,0,0,1,0,0,0,2 * 1,802,1,967 * 421.142,"NIST 46.6","n.a." * 8059670,"Y-Citrate (aq)",0,9.42,0,0,0,0,0,0,2 * 1,805,1,967 * 278.012,"NIST 46.6","n.a." * 3309681,"HNTA-2",-19,10.294,0,0,-2,0,0,0,2 * 1,330,1,968 * 189.1249,"NIST 46.6","NIST 46.6" * 3309682,"H2NTA-",-18,13.24,0,0,-1,0,0,0,2 * 2,330,1,968 * 190.1328,"NIST 46.6","NIST 46.6" * 3309683,"H3NTA (aq)",-16,15.24,0,0,0,0,0,0,2 * 3,330,1,968 * 191.1407,"NIST 46.6","NIST 46.6" * 3309684,"H4NTA+",-7.7,16.24,0,0,1,0,0,0,2 * 4,330,1,968 * 192.1486,"NIST 46.6","NIST 46.6" * 8719681,"Tl(NTA)2-3",0,37.73,0,0,-3,0,0,0,4 * 1,871,2,968,3,330,-3,2 * 580.6021,"NIST 46.6","n.a." * 8719680,"TlNTA (aq)",0,26.13,0,0,0,0,0,0,4 * 1,871,1,968,3,330,-3,2 * 392.4851,"NIST 46.6","n.a." * 6009681,"PbNTA-",-15,12.76,0,0,-1,0,0,0,2 * 1,600,1,968 * 395.317,"NIST 46.6","NIST 46.6" * 6009682,"PbHNTA (aq)",0,15.33,0,0,0,0,0,0,3 * 1,600,1,968,1,330 * 396.3249,"NIST 46.6","n.a." * 309681,"AlNTA (aq)",0,13.32,0,0,0,0,0,0,2 * 1,30,1,968 * 215.0985,"NIST 46.6","n.a." * 309682,"AlHNTA+",0,15.22,0,0,1,0,0,0,3 * 1,30,1,968,1,330 * 216.1064,"NIST 46.6","n.a." * 309683,"AlOHNTA-",0,8.02,0,0,-1,0,0,0,4 * 1,30,1,968,1,2,-1,330 * 232.1059,"NIST 46.6","n.a." * 8709681,"TlNTA-2",0,5.39,0,0,-2,0,0,0,2 * 1,870,1,968 * 392.5,"NIST 46.6","NIST 46.6" * 9509681,"ZnNTA-",-5,11.84,0,0,-1,0,0,0,2 * 1,950,1,968 * 253.507,"NIST 46.6","NIST 46.6" * 9509682,"Zn(NTA)2-4",-22,14.88,0,0,-4,0,0,0,2 * 1,950,2,968 * 441.624,"NIST 46.6","NIST 46.6" * 9509683,"ZnOHNTA-2",.81,1.43,0,0,-2,0,0,0,4 * 1,950,1,968,1,2,-1,330 * 270.5144,"NIST 46.6","NIST 46.6" * 1609681,"CdNTA-",-16,11.04,0,0,-1,0,0,0,2 * 1,160,1,968 * 300.527,"NIST 46.6","NIST 46.6" * 1609682,"Cd(NTA)2-4",-37,15.11,0,0,-4,0,0,0,2 * 1,160,2,968 * 488.644,"NIST 46.6","NIST 46.6" * 1609683,"CdOHNTA-2",-6.2,-.64,0,0,-2,0,0,0,4 * 1,160,1,968,1,2,-1,330 * 317.5344,"NIST 46.6","NIST 46.6" * 3619681,"HgNTA-",0,21.77,0,0,-1,0,0,0,4 * 1,361,1,968,-2,2,2,330 * 388.7022,"NIST 46.6","n.a." * 2319681,"CuNTA-",-7.9,14.28,0,0,-1,0,0,0,2 * 1,231,1,968 * 251.663,"NIST 46.6","NIST 46.6" * 2319682,"Cu(NTA)2-4",-35,18.04,0,0,-4,0,0,0,2 * 1,231,2,968 * 439.78,"NIST 46.6","NIST 46.6" * 2319683,"CuHNTA (aq)",0,16.1,0,0,0,0,0,0,3 * 1,231,1,968,1,330 * 252.6709,"NIST 46.6","n.a." * 2319684,"CuOHNTA-2",14.91,4.65,0,0,-2,0,0,0,4 * 1,231,1,968,1,2,-1,330 * 268.6704,"NIST 46.6","NIST 46.6" * 209681,"AgNTA-2",-26,5.61,0,0,-2,0,0,0,2 * 1,20,1,968 * 295.9852,"NIST 46.6","NIST 46.6" * 5409681,"NiNTA-",-10,12.79,0,0,-1,0,0,0,2 * 1,540,1,968 * 246.807,"NIST 46.6","NIST 46.6" * 5409682,"Ni(NTA)2-4",-32,16.96,0,0,-4,0,0,0,2 * 1,540,2,968 * 434.924,"NIST 46.6","NIST 46.6" * 5409683,"NiOHNTA-2",20.8,1.49,0,0,-2,0,0,0,4 * 1,540,1,968,1,2,-1,330 * 263.8144,"NIST 46.6","NIST 46.6" * 2009681,"CoNTA-",-2,11.66,0,0,-1,0,0,0,2 * 1,200,1,968 * 247.0502,"NIST 46.6","NIST 46.6" * 2009682,"Co(NTA)2-4",-20,14.97,0,0,-4,0,0,0,2 * 1,200,2,968 * 435.1672,"NIST 46.6","NIST 46.6" * 2009683,"CoOHNTA-2",7.81,.43,0,0,-2,0,0,0,4 * 1,200,1,968,1,2,-1,330 * 264.0576,"NIST 46.6","NIST 46.6" * 2809681,"FeNTA-",0,10.18,0,0,-1,0,0,0,2 * 1,280,1,968 * 243.964,"NIST 46.6","n.a." * 2809682,"Fe(NTA)2-4",0,12.62,0,0,-4,0,0,0,2 * 1,280,2,968 * 432.081,"NIST 46.6","NIST 46.6" * 2809683,"FeHNTA (aq)",0,12.29,0,0,0,0,0,0,3 * 1,280,1,968,1,330 * 244.9719,"NIST46.2","NIST46.2" * 2809684,"FeOHNTA-2",0,-1.066,0,0,-2,0,0,0,4 * 1,280,1,968,1,2,-1,330 * 260.9714,"NIST 46.6","NIST 46.6" * 2819681,"FeNTA (aq)",13,17.82,0,0,0,0,0,0,2 * 1,281,1,968 * 243.964,"NIST 46.6","NIST 46.6" * 2819682,"Fe(NTA)2-3",0,25.92,0,0,-3,0,0,0,2 * 1,281,2,968 * 432.081,"NIST 46.6","n.a." * 2819683,"FeOHNTA-",0,13.25,0,0,-1,0,0,0,4 * 1,281,1,968,1,2,-1,330 * 260.9714,"NIST 46.6","n.a." * 4709681,"MnNTA-",5.4,8.65,0,0,-1,0,0,0,2 * 1,470,1,968 * 243.055,"NIST 46.6","NIST 46.6" * 4709682,"Mn(NTA)2-4",-17,11.33,0,0,-4,0,0,0,2 * 1,470,2,968 * 431.172,"NIST 46.6","NIST 46.6" * 2119681,"CrNTA (aq)",0,21.2,0,0,0,0,0,0,4 * 1,211,1,968,-2,2,2,330 * 240.113,"SCD2.62","SCD2.62" * 2119682,"Cr(NTA)2-3",0,29.5,0,0,-3,0,0,0,4 * 1,211,2,968,-2,2,2,330 * 428.23,"SCD2.62","SCD2.62" * 4809681,"MoO3NTA-3",-69,19.55,0,0,-3,0,0,0,4 * 1,480,2,330,-1,2,1,968 * 332.0551,"NIST 46.6","NIST 46.6" * 4809682,"MoO3HNTA-2",-71,23.4,0,0,-2,0,0,0,4 * 1,480,3,330,-1,2,1,968 * 333.063,"NIST 46.6","NIST 46.6" * 4809683,"MoO3H2NTA-",-71,25.35,0,0,-1,0,0,0,4 * 1,480,4,330,-1,2,1,968 * 334.0709,"NIST 46.6","NIST 46.6" * 1109681,"BeNTA-",25,9.07,0,0,-1,0,0,0,2 * 1,110,1,968 * 197.1292,"NIST 46.6","NIST 46.6" * 4609681,"MgNTA-",17,6.78,0,0,-1,0,0,0,2 * 1,460,1,968 * 212.422,"NIST 46.6","NIST 46.6" * 1509681,"CaNTA-",-5.69,7.74,0,0,-1,0,0,0,2 * 1,150,1,968 * 228.195,"NIST 46.6","NIST 46.6" * 1509682,"Ca(NTA)2-4",-32,9.68,0,0,-4,0,0,0,2 * 1,150,2,968 * 416.312,"NIST 46.6","NIST 46.6" * 8009681,"SrNTA-",-2.2,6.27,0,0,-1,0,0,0,2 * 1,800,1,968 * 275.737,"NIST 46.6","NIST 46.6" * 1009681,"BaNTA-",-6,6.09,0,0,-1,0,0,0,2 * 1,100,1,968 * 325.447,"NIST 46.6","NIST 46.6" * 1159680,"BiNTA (aq)",0,20.12,0,0,0,0,0,0,2 * 1,115,1,968 * 397.097,"NIST 46.6","n.a." * 3909682,"InHNTA+",0,18.6,0,0,1,0,0,0,3 * 1,390,1,968,1,330 * 303.943,"NIST 46.6","n.a." * 3909681,"In(NTA)2-3",0,25.62,0,0,-3,0,0,0,2 * 1,390,2,968 * 491.052,"NIST 46.6","n.a." * 3909680,"InNTA (aq)",0,15.73,0,0,0,0,0,0,2 * 1,390,1,968 * 302.935,"NIST 46.6","n.a." * 2909682,"Ga(OH)2NTA-2",0,3.33,0,0,-2,0,0,0,4 * 1,290,1,968,-2,330,2,2 * 291.8546,"NIST 46.6","n.a." * 2909681,"GaOHNTA-",0,11.18,0,0,-1,0,0,0,4 * 1,290,1,968,-1,330,1,2 * 274.8473,"NIST 46.6","n.a." * 2909680,"GaNTA (aq)",0,15.67,0,0,0,0,0,0,2 * 1,290,1,968 * 257.84,"NIST 46.6","n.a." * 309680,"Al(OH)2NTA-2",0,-.68,0,0,-2,0,0,0,4 * 1,30,1,968,-2,330,2,2 * 249.1131,"NIST 46.6","n.a." * 6009680,"Pb(NTA)2-4",0,13.44,0,0,-4,0,0,0,2 * 1,600,2,968 * 583.4239,"NIST 46.6","n.a." * 5709681,"Pd(NTA)2-4",0,24.31,0,0,-4,0,0,0,2 * 1,570,2,968 * 482.654,"NIST 46.6","n.a." * 5709680,"PdNTA-",0,18.23,0,0,-1,0,0,0,2 * 1,570,1,968 * 294.537,"NIST 46.6","n.a." * 209680,"AgHNTA-",0,13.01,0,0,-1,0,0,0,3 * 1,20,1,968,1,330 * 296.993,"NIST 46.6","n.a." * 8049680,"WO3NTA-3",0,19.45,0,0,-3,0,0,0,4 * 1,804,1,968,2,330,-1,2 * 419.9417,"NIST 46.6","n.a." * 9029681,"VOOHNTA-2",0,5.39,0,0,-2,0,0,0,4 * 1,902,1,968,-1,330,1,2 * 272.0633,"NIST 46.6","n.a." * 9029680,"VONTA-",0,12.75,0,0,-1,0,0,0,2 * 1,902,1,968 * 255.056,"NIST 46.6","n.a." * 9519680,"ZrNTA+",25,24.1,0,0,1,0,0,0,2 * 1,951,1,968 * 279.341,"NIST 46.6","NIST 46.6" * 9019682,"VOHNTA-",0,7.493,0,0,-1,0,0,0,4 * 1,901,1,968,-1,330,1,2 * 256.0643,"NIST 46.6","n.a." * 9019681,"V(NTA)2-3",0,25.01,0,0,-3,0,0,0,2 * 1,901,2,968 * 427.174,"NIST 46.6","n.a." * 9019680,"VNTA (aq)",0,15.33,0,0,0,0,0,0,2 * 1,901,1,968 * 239.057,"NIST 46.6","n.a." * 2819685,"Fe(OH)3NTA-3",0,-6.12,0,0,-3,0,0,0,4 * 1,281,1,968,-3,330,3,2 * 294.9859,"NIST 46.6","n.a." * 2819684,"Fe(OH)2NTA-2",0,5.24,0,0,-2,0,0,0,4 * 1,281,1,968,-2,330,2,2 * 277.9786,"NIST 46.6","n.a." * 2819680,"FeHNTA+",0,18.72,0,0,1,0,0,0,3 * 1,281,1,968,1,330 * 244.972,"NIST 46.6","n.a." * 8939680,"UO2NTA-",0,10.78,0,0,-1,0,0,0,2 * 1,893,1,968 * 458.1448,"NIST 46.6","n.a." * 5509681,"NpO2HNTA-",0,12.47,0,0,-1,0,0,0,3 * 1,550,1,968,1,330 * 458.115,"NIST 46.6","n.a." * 5509680,"NpO2NTA-2",0,7.44,0,0,-2,0,0,0,2 * 1,550,1,968 * 457.107,"NIST 46.6","n.a." * 1709681,"Cf(NTA)2-3",0,23.12,0,0,-3,0,0,0,2 * 1,170,2,968 * 627.234,"NIST 46.6","n.a." * 1709680,"CfNTA (aq)",0,13.82,0,0,0,0,0,0,2 * 1,170,1,968 * 439.117,"NIST 46.6","n.a." * 1259680,"BkNTA (aq)",0,13.58,0,0,0,0,0,0,2 * 1,125,1,968 * 435.117,"NIST 46.6","n.a." * 1909681,"Cm(NTA)2-3",0,22.67,0,0,-3,0,0,0,2 * 1,190,2,968 * 623.234,"NIST 46.6","n.a." * 1909680,"CmNTA (aq)",-11,13.72,0,0,0,0,0,0,2 * 1,190,1,968 * 435.117,"NIST 46.6","NIST 46.6" * 459681,"Am(NTA)2-3",-20,22.27,0,0,-3,0,0,0,2 * 1,45,2,968 * 619.234,"NIST 46.6","NIST 46.6" * 459680,"AmNTA (aq)",4,13.52,0,0,0,0,0,0,2 * 1,45,1,968 * 431.117,"NIST 46.6","NIST 46.6" * 5909680,"PuNTA (aq)",0,12.2,0,0,0,0,0,0,2 * 1,590,1,968 * 432.117,"NIST 46.6","n.a." * 4509682,"LuOHNTA-",0,6.545,0,0,-1,0,0,0,4 * 1,450,1,968,-1,330,1,2 * 380.0913,"NIST 46.6","n.a." * 4509681,"Lu(NTA)2-3",-3,23.57,0,0,-3,0,0,0,2 * 1,450,2,968 * 551.201,"NIST 46.6","NIST 46.6" * 4509680,"LuNTA (aq)",-1,14.24,0,0,0,0,0,0,2 * 1,450,1,968 * 363.084,"NIST 46.6","NIST 46.6" * 8069682,"YbOHNTA-",0,6.425,0,0,-1,0,0,0,4 * 1,806,1,968,-1,330,1,2 * 378.1643,"NIST 46.6","n.a." * 8069681,"Yb(NTA)2-3",-6.2,23.33,0,0,-3,0,0,0,2 * 1,806,2,968 * 549.274,"NIST 46.6","NIST 46.6" * 8069680,"YbNTA (aq)",-1,14.13,0,0,0,0,0,0,2 * 1,806,1,968 * 361.157,"NIST 46.6","NIST 46.6" * 8809682,"TmOHNTA-",0,6.235,0,0,-1,0,0,0,4 * 1,880,1,968,-1,330,1,2 * 374.0583,"NIST 46.6","n.a." * 8809681,"Tm(NTA)2-3",-7.5,23.14,0,0,-3,0,0,0,2 * 1,880,2,968 * 545.168,"NIST 46.6","NIST 46.6" * 8809680,"TmNTA (aq)",-.4,13.99,0,0,0,0,0,0,2 * 1,880,1,968 * 357.051,"NIST 46.6","NIST 46.6" * 2509682,"ErOHNTA-",0,6.385,0,0,-1,0,0,0,4 * 1,250,1,968,-1,330,1,2 * 372.3833,"NIST 46.6","n.a." * 2509681,"Er(NTA)2-3",-13,23.01,0,0,-3,0,0,0,2 * 1,250,2,968 * 543.493,"NIST 46.6","NIST 46.6" * 2509680,"ErNTA (aq)",0,13.82,0,0,0,0,0,0,2 * 1,250,1,968 * 355.376,"NIST 46.6","NIST 46.6" * 3709682,"HoOHNTA-",0,6.345,0,0,-1,0,0,0,4 * 1,370,1,968,-1,330,1,2 * 370.0543,"NIST 46.6","n.a." * 3709681,"Ho(NTA)2-3",-19,22.98,0,0,-3,0,0,0,2 * 1,370,2,968 * 541.164,"NIST 46.6","NIST 46.6" * 3709680,"HoNTA (aq)",.8,13.68,0,0,0,0,0,0,2 * 1,370,1,968 * 353.047,"NIST 46.6","NIST 46.6" * 2409682,"DyOHNTA-",0,6.395,0,0,-1,0,0,0,4 * 1,240,1,968,-1,330,1,2 * 367.6243,"NIST 46.6","n.a." * 2409681,"Dy(NTA)2-3",-21,22.9,0,0,-3,0,0,0,2 * 1,240,2,968 * 538.734,"NIST 46.6","NIST 46.6" * 2409680,"DyNTA (aq)",0,13.55,0,0,0,0,0,0,2 * 1,240,1,968 * 350.617,"NIST 46.6","NIST 46.6" * 8019682,"TbOHNTA-",0,6.095,0,0,-1,0,0,0,4 * 1,801,1,968,-1,330,1,2 * 364.0493,"NIST 46.6","n.a." * 8019681,"Tb(NTA)2-3",-24,22.87,0,0,-3,0,0,0,2 * 1,801,2,968 * 535.159,"NIST 46.6","NIST 46.6" * 8019680,"TbNTA (aq)",-1,13.42,0,0,0,0,0,0,2 * 1,801,1,968 * 347.042,"NIST 46.6","NIST 46.6" * 3109682,"GdOHNTA-",0,5.815,0,0,-1,0,0,0,4 * 1,310,1,968,-1,330,1,2 * 362.3743,"NIST 46.6","n.a." * 3109681,"Gd(NTA)2-3",-26,22.58,0,0,-3,0,0,0,2 * 1,310,2,968 * 533.484,"NIST 46.6","NIST 46.6" * 3109680,"GdNTA (aq)",-3,13.27,0,0,0,0,0,0,2 * 1,310,1,968 * 345.367,"NIST 46.6","NIST 46.6" * 2609682,"EuOHNTA-",0,20.08,0,0,-1,0,0,0,4 * 1,260,1,968,-1,330,1,2 * 357.0883,"NIST 46.6","n.a." * 2609681,"Eu(NTA)2-3",-25,22.56,0,0,-3,0,0,0,2 * 1,260,2,968 * 528.198,"NIST 46.6","NIST 46.6" * 2609680,"EuNTA (aq)",-6.2,13.24,0,0,0,0,0,0,2 * 1,260,1,968 * 340.081,"NIST 46.6","NIST 46.6" * 7809682,"SmOHNTA-",0,5.835,0,0,-1,0,0,0,4 * 1,780,1,968,-1,330,1,2 * 355.4843,"NIST 46.6","n.a." * 7809681,"Sm(NTA)2-3",-23,22.35,0,0,-3,0,0,0,2 * 1,780,2,968 * 526.594,"NIST 46.6","NIST 46.6" * 7809680,"SmNTA (aq)",-7.1,13.24,0,0,0,0,0,0,2 * 1,780,1,968 * 338.477,"NIST 46.6","NIST 46.6" * 5209682,"NdOHNTA-",0,4.885,0,0,-1,0,0,0,4 * 1,520,1,968,-1,330,1,2 * 349.3643,"NIST 46.6","n.a." * 5209681,"Nd(NTA)2-3",-19,21.43,0,0,-3,0,0,0,2 * 1,520,2,968 * 520.474,"NIST 46.6","NIST 46.6" * 5209680,"NdNTA (aq)",-6.2,13.02,0,0,0,0,0,0,2 * 1,520,1,968 * 332.357,"NIST 46.6","NIST 46.6" * 5859682,"PrOHNTA-",0,4.515,0,0,-1,0,0,0,4 * 1,585,1,968,-1,330,1,2 * 346.0323,"NIST 46.6","n.a." * 5859681,"Pr(NTA)2-3",-17,20.94,0,0,-3,0,0,0,2 * 1,585,2,968 * 517.142,"NIST 46.6","NIST 46.6" * 5859680,"PrNTA (aq)",-5.8,12.79,0,0,0,0,0,0,2 * 1,585,1,968 * 329.025,"NIST 46.6","NIST 46.6" * 4209682,"LaOHNTA-",0,4.295,0,0,-1,0,0,0,4 * 1,420,1,968,-1,330,1,2 * 344.0303,"NIST 46.6","n.a." * 4209681,"La(NTA)2-3",-8.7,19.76,0,0,-3,0,0,0,2 * 1,420,2,968 * 515.14,"NIST 46.6","NIST 46.6" * 4209680,"LaNTA (aq)",-3,12.39,0,0,0,0,0,0,2 * 1,420,1,968 * 327.023,"NIST 46.6","NIST 46.6" * 8059682,"YOHNTA-",0,5.735,0,0,-1,0,0,0,4 * 1,805,1,968,-1,330,1,2 * 294.0343,"NIST 46.6","n.a." * 8059681,"Y(NTA)2-3",-13,22.33,0,0,-3,0,0,0,2 * 1,805,2,968 * 465.144,"NIST 46.6","NIST 46.6" * 8059680,"YNTA (aq)",-2,13.34,0,0,0,0,0,0,2 * 1,805,1,968 * 277.027,"NIST 46.6","NIST 46.6" * 7509682,"ScOHNTA-",0,8.065,0,0,-1,0,0,0,4 * 1,750,1,968,-1,330,1,2 * 250.0803,"NIST 46.6","n.a." * 7509681,"Sc(NTA)2-3",0,26.02,0,0,-3,0,0,0,2 * 1,750,2,968 * 421.19,"NIST 46.6","n.a." * 7509680,"ScNTA (aq)",0,14.62,0,0,0,0,0,0,2 * 1,750,1,968 * 233.073,"NIST 46.6","n.a." * 2159680,"CsNTA-2",0,.84,0,0,-2,0,0,0,2 * 1,215,1,968 * 321.022,"NIST 46.6","n.a." * 6809680,"RbNTA-2",0,1.04,0,0,-2,0,0,0,2 * 1,680,1,968 * 273.5869,"NIST 46.6","n.a." * 4109680,"KNTA-2",16,1.24,0,0,-2,0,0,0,2 * 1,410,1,968 * 227.219,"NIST 46.6","NIST 46.6" * 5009680,"NaNTA-2",8,1.84,0,0,-2,0,0,0,2 * 1,500,1,968 * 211.1068,"NIST 46.6","NIST 46.6" * 4409680,"LiNTA-2",8,3.09,0,0,-2,0,0,0,2 * 1,440,1,968 * 195.056,"NIST 46.6","NIST 46.6" * 8029681,"ThOHNTA (aq)",0,9.593,0,0,0,0,0,0,3 * 1,802,1,968,-1,330 * 419.149,"NIST 46.6","n.a." * 8029680,"ThNTA+",5.8,14.98,0,0,1,0,0,0,2 * 1,802,1,968 * 420.157,"NIST 46.6","NIST 46.6" * 3309691,"HEDTA(ii)-3",-21,10.948,0,0,-3,0,0,0,2 * 1,330,1,969 * 289.2219,"NIST 46.6","NIST 46.6" * 3309692,"H2EDTA-2",-36,17.221,0,0,-2,0,0,0,2 * 2,330,1,969 * 290.2298,"NIST 46.6","NIST 46.6" * 3309693,"H3EDTA-",-28.9,20.338,0,0,-1,0,0,0,2 * 3,330,1,969 * 291.2377,"NIST 46.6","NIST 46.6" * 3309694,"H4EDTA (aq)",-27.9,22.552,0,0,0,0,0,0,2 * 4,330,1,969 * 292.2456,"NIST 46.6","NIST 46.6" * 3309695,"H5EDTA+",-25.9,24.052,0,0,1,0,0,0,2 * 5,330,1,969 * 293.2535,"NIST 46.6","NIST 46.6" * 8719690,"TlEDTA-",0,41.15,0,0,-1,0,0,0,4 * 1,871,1,969,3,330,-3,2 * 492.5821,"NIST 46.6","n.a." * 3619693,"HgOHEDTA-3",0,19.86,0,0,-3,0,0,0,4 * 1,361,1,969,1,330,-1,2 * 505.8167,"NIST 46.6","n.a." * 3619690,"HgH2EDTA (aq)",0,35.33,0,0,0,0,0,0,4 * 1,361,1,969,4,330,-2,2 * 490.8254,"NIST 46.6","n.a." * 7909691,"SnEDTA-2",0,27.02,0,0,-2,0,0,0,4 * 1,790,-2,2,2,330,1,969 * 406.9238,"NIST 46.6","n.a." * 7909692,"SnHEDTA-",0,29.92,0,0,-1,0,0,0,4 * 1,790,-2,2,3,330,1,969 * 407.9317,"NIST 46.6","n.a." * 7909693,"SnH2EDTA (aq)",0,31.62,0,0,0,0,0,0,4 * 1,790,-2,2,4,330,1,969 * 408.9396,"NIST 46.6","n.a." * 6009691,"PbEDTA-2",-54.8,19.71,0,0,-2,0,0,0,2 * 1,600,1,969 * 495.414,"NIST 46.6","NIST 46.6" * 6009692,"PbHEDTA-",0,22.54,0,0,-1,0,0,0,3 * 1,600,1,969,1,330 * 496.4219,"NIST 46.6","n.a." * 6009693,"PbH2EDTA (aq)",0,24.44,0,0,0,0,0,0,3 * 1,600,1,969,2,330 * 497.4298,"NIST 46.6","n.a." * 309690,"AlEDTA-",52.7,18.96,0,0,-1,0,0,0,2 * 1,30,1,969 * 315.1955,"NIST 46.6","NIST 46.6" * 309691,"AlHEDTA (aq)",36.7,21.78,0,0,0,0,0,0,3 * 1,30,1,969,1,330 * 316.2034,"NIST 46.6","NIST 46.6" * 309692,"AlOHEDTA-2",88.51,12.633,0,0,-2,0,0,0,4 * 1,30,1,969,1,2,-1,330 * 332.2029,"NIST 46.6","NIST 46.6" * 8709691,"TlEDTA-3",-43.5,7.26,0,0,-3,0,0,0,2 * 1,870,1,969 * 492.597,"NIST 46.6","NIST 46.6" * 8709692,"TlHEDTA-2",0,13.68,0,0,-2,0,0,0,3 * 1,870,1,969,1,330 * 493.6049,"NIST 46.6","NIST 46.6" * 9509691,"ZnEDTA-2",-19,18,0,0,-2,0,0,0,2 * 1,950,1,969 * 353.604,"NIST 46.6","NIST 46.6" * 9509692,"ZnHEDTA-",-28.2,21.43,0,0,-1,0,0,0,3 * 1,950,1,969,1,330 * 354.6119,"NIST 46.6","NIST 46.6" * 9509693,"ZnOHEDTA-3",-21.19,5.763,0,0,-3,0,0,0,4 * 1,950,1,969,1,2,-1,330 * 370.6114,"NIST 46.6","NIST 46.6" * 1609691,"CdEDTA-2",-36,18.1,0,0,-2,0,0,0,2 * 1,160,1,969 * 400.624,"NIST 46.6","NIST 46.6" * 1609692,"CdHEDTA-",-37,21.43,0,0,-1,0,0,0,3 * 1,160,1,969,1,330 * 401.6319,"NIST 46.6","NIST 46.6" * 3619691,"HgEDTA-2",-118.7,29.4,0,0,-2,0,0,0,4 * 1,361,1,969,-2,2,2,330 * 488.7992,"NIST 46.6","NIST 46.6" * 3619692,"HgHEDTA-",-120.7,33.03,0,0,-1,0,0,0,4 * 1,361,1,969,-2,2,3,330 * 489.8071,"NIST 46.6","NIST 46.6" * 2319691,"CuEDTA-2",-33,20.49,0,0,-2,0,0,0,2 * 1,231,1,969 * 351.76,"NIST 46.6","NIST 46.6" * 2319692,"CuHEDTA-",-41.3,24.02,0,0,-1,0,0,0,3 * 1,231,1,969,1,330 * 352.7679,"NIST46.2","NIST46.2" * 2319693,"CuH2EDTA (aq)",0,26.23,0,0,0,0,0,0,3 * 1,231,1,969,2,330 * 353.7758,"NIST 46.6","n.a." * 2319694,"CuOHEDTA-3",-23.19,8.443,0,0,-3,0,0,0,4 * 1,231,1,969,1,2,-1,330 * 368.7674,"NIST 46.6","NIST 46.6" * 209691,"AgEDTA-3",-31,8.05,0,0,-3,0,0,0,2 * 1,20,1,969 * 396.0822,"NIST 46.6","NIST 46.6" * 209693,"AgHEDTA-2",0,14.74,0,0,-2,0,0,0,3 * 1,20,1,969,1,330 * 397.0901,"NIST 46.6","n.a." * 5409691,"NiEDTA-2",-30,20.11,0,0,-2,0,0,0,2 * 1,540,1,969 * 346.904,"NIST 46.6","NIST 46.6" * 5409692,"NiHEDTA-",-37.5,23.64,0,0,-1,0,0,0,3 * 1,540,1,969,1,330 * 347.9119,"NIST 46.6","NIST 46.6" * 5409693,"NiOHEDTA-3",-45.19,7.563,0,0,-3,0,0,0,4 * 1,540,1,969,1,2,-1,330 * 363.9114,"NIST 46.6","NIST 46.6" * 2009691,"CoEDTA-2",-15,18.16,0,0,-2,0,0,0,2 * 1,200,1,969 * 347.1472,"NIST 46.6","NIST 46.6" * 2009692,"CoHEDTA-",-22.9,21.59,0,0,-1,0,0,0,3 * 1,200,1,969,1,330 * 348.1551,"NIST 46.6","NIST 46.6" * 2009693,"CoH2EDTA (aq)",0,23.49,0,0,0,0,0,0,3 * 1,200,1,969,2,330 * 349.163,"NIST 46.6","n.a." * 2019691,"CoEDTA-",0,43.9735,0,0,-1,0,0,0,2 * 1,201,1,969 * 347.1472,"NIST46.4","NIST46.2" * 2019692,"CoHEDTA (aq)",0,47.168,0,0,0,0,0,0,3 * 1,201,1,969,1,330 * 348.1551,"NIST46.4","NIST46.2" * 2809690,"FeEDTA-2",-16,16.01,0,0,-2,0,0,0,2 * 1,280,1,969 * 344.061,"NIST 46.6","NIST 46.6" * 2809691,"FeHEDTA-",-20,19.05,0,0,-1,0,0,0,3 * 1,280,1,969,1,330 * 345.0689,"NIST 46.6","NIST 46.6" * 2809692,"FeOHEDTA-3",0,6.5,0,0,-3,0,0,0,4 * 1,280,1,969,1,2,-1,330 * 361.0684,"SCD2.62","SCD2.62" * 2819690,"FeEDTA-",-11,27.66,0,0,-1,0,0,0,2 * 1,281,1,969 * 344.061,"NIST 46.6","NIST 46.6" * 2819691,"FeHEDTA (aq)",-11.4,29.17,0,0,0,0,0,0,3 * 1,281,1,969,1,330 * 345.0689,"NIST 46.6","NIST 46.6" * 2819692,"FeOHEDTA-2",3.81,19.843,0,0,-2,0,0,0,4 * 1,281,1,969,1,2,-1,330 * 361.0684,"NIST 46.6","NIST 46.6" * 4709691,"MnEDTA-2",-19,15.6,0,0,-2,0,0,0,2 * 1,470,1,969 * 343.152,"NIST 46.6","NIST 46.6" * 4709692,"MnHEDTA-",-24,19.13,0,0,-1,0,0,0,3 * 1,470,1,969,1,330 * 344.1599,"NIST 46.6","NIST 46.6" * 2109691,"CrEDTA-2",0,15.31,0,0,-2,0,0,0,2 * 1,210,1,969 * 340.2101,"NIST 46.6","NIST 46.6" * 2109692,"CrHEDTA-",0,19.1,0,0,-1,0,0,0,3 * 1,210,1,969,1,330 * 341.218,"SCD2.62","SCD2.62" * 2119691,"CrEDTA-",0,35.8,0,0,-1,0,0,0,4 * 1,211,1,969,-2,2,2,330 * 340.21,"NIST 46.6","n.a." * 2119692,"CrHEDTA (aq)",0,37.72,0,0,0,0,0,0,4 * 1,211,1,969,-2,2,3,330 * 341.2179,"NIST 46.6","n.a." * 2119693,"CrOHEDTA-2",0,28,0,0,-2,0,0,0,4 * 1,211,1,969,-1,2,1,330 * 357.2174,"NIST 46.6","n.a." * 1109691,"BeEDTA-2",41,11.41,0,0,-2,0,0,0,2 * 1,110,1,969 * 297.2262,"NIST 46.6","NIST 46.6" * 4609690,"MgEDTA-2",17,10.58,0,0,-2,0,0,0,2 * 1,460,1,969 * 312.519,"NIST 46.6","NIST 46.6" * 4609691,"MgHEDTA-",0,15.01,0,0,-1,0,0,0,3 * 1,460,1,969,1,330 * 313.5269,"NIST 46.6","n.a." * 1509690,"CaEDTA-2",-22,12.44,0,0,-2,0,0,0,2 * 1,150,1,969 * 328.292,"NIST 46.6","NIST 46.6" * 1509691,"CaHEDTA-",0,15.97,0,0,-1,0,0,0,3 * 1,150,1,969,1,330 * 329.2999,"NIST 46.6","n.a." * 8009691,"SrEDTA-2",-17,10.43,0,0,-2,0,0,0,2 * 1,800,1,969 * 375.834,"NIST 46.6","NIST 46.6" * 8009692,"SrHEDTA-",0,14.79,0,0,-1,0,0,0,3 * 1,800,1,969,1,330 * 376.8419,"NIST 46.6","n.a." * 1009691,"BaEDTA-2",-20,9.59,0,0,-2,0,0,0,2 * 1,100,1,969 * 425.544,"NIST 46.6","NIST 46.6" * 5009690,"NaEDTA-3",-5.8,2.71,0,0,-3,0,0,0,2 * 1,500,1,969 * 311.2038,"NIST 46.6","NIST 46.6" * 4109690,"KEDTA-3",0,1.65,0,0,-3,0,0,0,2 * 1,410,1,969 * 327.3123,"NIST 46.6","NIST 46.6" * 9009691,"VHEDTA-",0,17.7,0,0,-1,0,0,0,3 * 1,900,1,969,1,330 * 340.162,"NIST 46.6","n.a." * 9009690,"VEDTA-2",0,14.41,0,0,-2,0,0,0,2 * 1,900,1,969 * 339.154,"NIST 46.6","n.a." * 5409690,"NiH2EDTA (aq)",0,24.74,0,0,0,0,0,0,3 * 1,540,1,969,2,330 * 348.94,"NIST 46.6","n.a." * 1159691,"BiHEDTA (aq)",0,31.34,0,0,0,0,0,0,3 * 1,115,1,969,1,330 * 498.202,"NIST 46.6","n.a." * 1159690,"BiEDTA-",0,30.36,0,0,-1,0,0,0,2 * 1,115,1,969 * 497.194,"NIST 46.6","n.a." * 3909691,"InHEDTA (aq)",0,27.54,0,0,0,0,0,0,3 * 1,390,1,969,1,330 * 404.04,"NIST 46.6","n.a." * 3909690,"InEDTA-",-30,27.46,0,0,-1,0,0,0,2 * 1,390,1,969 * 403.032,"NIST 46.6","NIST 46.6" * 2909692,"GaOHEDTA-2",0,12.403,0,0,-2,0,0,0,4 * 1,290,1,969,-1,330,1,2 * 374.9443,"NIST 46.6","n.a." * 2909691,"GaHEDTA (aq)",0,25.54,0,0,0,0,0,0,3 * 1,290,1,969,1,330 * 358.945,"NIST 46.6","n.a." * 2909690,"GaEDTA-",0,24.26,0,0,-1,0,0,0,2 * 1,290,1,969 * 357.937,"NIST 46.6","n.a." * 309693,"Al(OH)2EDTA-3",0,1.686,0,0,-3,0,0,0,4 * 1,30,1,969,-2,330,2,2 * 349.2101,"NIST 46.6","n.a." * 6009690,"PbH3EDTA+",0,25.64,0,0,1,0,0,0,3 * 1,600,1,969,3,330 * 498.4279,"NIST 46.6","n.a." * 1609693,"CdOHEDTA-3",-30.79,4.293,0,0,-3,0,0,0,4 * 1,160,1,969,-1,330,1,2 * 417.6207,"NIST 46.6","NIST 46.6" * 1609690,"CdH2EDTA (aq)",0,23.23,0,0,0,0,0,0,3 * 1,160,1,969,2,330 * 402.6294,"NIST 46.6","n.a." * 9509690,"ZnH2EDTA (aq)",0,22.83,0,0,0,0,0,0,3 * 1,950,1,969,2,330 * 355.5999,"NIST 46.6","n.a." * 5709690,"PdEDTA-2",0,27.31,0,0,-2,0,0,0,2 * 1,570,1,969 * 394.634,"NIST 46.6","n.a." * 9029690,"VOEDTA-2",-10,20.41,0,0,-2,0,0,0,2 * 1,902,1,969 * 355.153,"NIST 46.6","NIST 46.6" * 9519691,"ZrOHEDTA-",0,-4.397,0,0,-1,0,0,0,4 * 1,951,1,969,-1,330,1,2 * 396.4453,"NIST 46.6","n.a." * 9519690,"ZrEDTA (aq)",-2,32.8,0,0,0,0,0,0,2 * 1,951,1,969 * 379.438,"NIST 46.6","NIST 46.6" * 2819693,"Fe2(OH)2(EDTA)2-4",27.62,41.676,0,0,-4,0,0,0,4 * 2,281,2,969,-2,330,2,2 * 722.1366,"NIST 46.6","NIST 46.6" * 8939693,"(UO2)2(EDTA)2-4",0,29.33,0,0,-4,0,0,0,2 * 2,893,2,969 * 1116.4836,"NIST 46.6","n.a." * 8939692,"(UO2)2OHEDTA-",0,15.423,0,0,-1,0,0,0,4 * 2,893,1,969,-1,330,1,2 * 845.2769,"NIST 46.6","n.a." * 8939691,"(UO2)2EDTA (aq)",0,20.43,0,0,0,0,0,0,2 * 2,893,1,969 * 828.2696,"NIST 46.6","n.a." * 8939690,"UO2HEDTA-",0,19.63,0,0,-1,0,0,0,3 * 1,893,1,969,1,330 * 559.2498,"NIST 46.6","n.a." * 5509691,"NpO2HEDTA-2",0,14.13,0,0,-2,0,0,0,3 * 1,550,1,969,1,330 * 558.212,"NIST 46.6","n.a." * 5509690,"NpO2EDTA-3",0,8.18,0,0,-3,0,0,0,2 * 1,550,1,969 * 557.204,"NIST 46.6","n.a." * 8919691,"UOHEDTA-",0,-5.84,0,0,-1,0,0,0,4 * 1,891,1,969,-1,330,1,2 * 543.2503,"NIST 46.6","n.a." * 8919690,"UEDTA (aq)",0,29.15,0,0,0,0,0,0,2 * 1,891,1,969 * 526.243,"NIST 46.6","n.a." * 8029692,"ThOHEDTA-",0,-3.52,0,0,-1,0,0,0,4 * 1,802,1,969,-1,330,1,2 * 537.2613,"NIST 46.6","n.a." * 8029691,"ThHEDTA+",0,28.64,0,0,1,0,0,0,3 * 1,802,1,969,1,330 * 521.262,"NIST 46.6","NIST 46.6" * 8029690,"ThEDTA (aq)",-12,26.65,0,0,0,0,0,0,2 * 1,802,1,969 * 520.254,"NIST 46.6","NIST 46.6" * 1709690,"CfEDTA-",0,21.11,0,0,-1,0,0,0,2 * 1,170,1,969 * 539.214,"NIST 46.6","n.a." * 1259690,"BkEDTA-",0,20.96,0,0,-1,0,0,0,2 * 1,125,1,969 * 535.214,"NIST 46.6","n.a." * 1909690,"CmEDTA-",-28,20.36,0,0,-1,0,0,0,2 * 1,190,1,969 * 535.214,"NIST 46.6","NIST 46.6" * 459690,"AmEDTA-",-19,20.06,0,0,-1,0,0,0,2 * 1,45,1,969 * 531.214,"NIST 46.6","NIST 46.6" * 5909691,"PuHEDTA (aq)",0,21.19,0,0,0,0,0,0,3 * 1,590,1,969,1,330 * 533.222,"NIST 46.6","n.a." * 5909690,"PuEDTA-",0,18.66,0,0,-1,0,0,0,2 * 1,590,1,969 * 532.214,"NIST 46.6","n.a." * 4509690,"LuEDTA-",-10,22.3,0,0,-1,0,0,0,2 * 1,450,1,969 * 463.181,"NIST 46.6","NIST 46.6" * 8069690,"YbEDTA-",-9.6,22.05,0,0,-1,0,0,0,2 * 1,806,1,969 * 461.254,"NIST 46.6","NIST 46.6" * 8809690,"TmEDTA-",-7.9,21.88,0,0,-1,0,0,0,2 * 1,880,1,969 * 457.148,"NIST 46.6","NIST 46.6" * 2509690,"ErEDTA-",-7.1,21.45,0,0,-1,0,0,0,2 * 1,250,1,969 * 455.473,"NIST 46.6","NIST 46.6" * 3709691,"HoHEDTA (aq)",0,21.83,0,0,0,0,0,0,3 * 1,370,1,969,1,330 * 454.152,"NIST 46.6","n.a." * 3709690,"HoEDTA-",-5.8,21.12,0,0,-1,0,0,0,2 * 1,370,1,969 * 453.144,"NIST 46.6","NIST 46.6" * 2409691,"DyHEDTA (aq)",0,21.77,0,0,0,0,0,0,3 * 1,240,1,969,1,330 * 451.722,"NIST 46.6","n.a." * 2409690,"DyEDTA-",-5,20.86,0,0,-1,0,0,0,2 * 1,240,1,969 * 450.714,"NIST 46.6","NIST 46.6" * 8019691,"TbHEDTA (aq)",0,21.54,0,0,0,0,0,0,3 * 1,801,1,969,1,330 * 448.147,"NIST 46.6","n.a." * 8019690,"TbEDTA-",-4.6,20.43,0,0,-1,0,0,0,2 * 1,801,1,969 * 447.139,"NIST 46.6","NIST 46.6" * 3109691,"GdHEDTA (aq)",0,21.42,0,0,0,0,0,0,3 * 1,310,1,969,1,330 * 446.472,"NIST 46.6","n.a." * 3109690,"GdEDTA-",-6.6,19.91,0,0,-1,0,0,0,2 * 1,310,1,969 * 445.464,"NIST 46.6","NIST 46.6" * 2609691,"EuHEDTA (aq)",0,21.42,0,0,0,0,0,0,3 * 1,260,1,969,1,330 * 441.186,"NIST 46.6","n.a." * 2609690,"EuEDTA-",-10,19.81,0,0,-1,0,0,0,2 * 1,260,1,969 * 440.178,"NIST 46.6","NIST 46.6" * 7809691,"SmHEDTA (aq)",0,21.33,0,0,0,0,0,0,3 * 1,780,1,969,1,330 * 439.582,"NIST 46.6","n.a." * 7809690,"SmEDTA-",-14,19.62,0,0,-1,0,0,0,2 * 1,780,1,969 * 438.574,"NIST 46.6","NIST 46.6" * 5209691,"NdHEDTA (aq)",0,20.78,0,0,0,0,0,0,3 * 1,520,1,969,1,330 * 433.462,"NIST 46.6","n.a." * 5209690,"NdEDTA-",-15,19.07,0,0,-1,0,0,0,2 * 1,520,1,969 * 432.454,"NIST 46.6","NIST 46.6" * 5859691,"PrHEDTA (aq)",0,20.67,0,0,0,0,0,0,3 * 1,585,1,969,1,330 * 430.13,"NIST 46.6","n.a." * 5859690,"PrEDTA-",-13,18.86,0,0,-1,0,0,0,2 * 1,585,1,969 * 429.122,"NIST 46.6","NIST 46.6" * 4209691,"LaHEDTA (aq)",0,20.38,0,0,0,0,0,0,3 * 1,420,1,969,1,330 * 428.128,"NIST 46.6","n.a." * 4209690,"LaEDTA-",-12,17.92,0,0,-1,0,0,0,2 * 1,420,1,969 * 427.12,"NIST 46.6","NIST 46.6" * 8059690,"Y-EDTA-",-2,20.64,0,0,-1,0,0,0,2 * 1,805,1,969 * 377.124,"NIST 46.6","NIST 46.6" * 7509692,"ScOHEDTA-2",0,14.573,0,0,-2,0,0,0,4 * 1,750,1,969,-1,330,1,2 * 350.1773,"NIST 46.6","n.a." * 7509691,"ScHEDTA (aq)",0,27.88,0,0,0,0,0,0,3 * 1,750,1,969,1,330 * 334.178,"NIST 46.6","n.a." * 7509690,"ScEDTA-",0,25.66,0,0,-1,0,0,0,2 * 1,750,1,969 * 333.17,"NIST 46.6","n.a." * 2159690,"CsEDTA-3",0,1.05,0,0,-3,0,0,0,2 * 1,215,1,969 * 421.119,"NIST 46.6","n.a." * 6809690,"RbEDTA-3",0,1.45,0,0,-3,0,0,0,2 * 1,680,1,969 * 373.6839,"NIST 46.6","n.a." * 4409690,"LiEDTA-3",.4,3.8,0,0,-3,0,0,0,2 * 1,440,1,969 * 295.153,"NIST 46.6","NIST 46.6" * 3309690,"H6EDTA+2",-25.1,23.94,0,0,2,0,0,0,2 * 6,330,1,969 * 294.262,"NIST 46.6","NIST 46.6" * 3619701,"HgHEGTA-",0,34.29,0,0,-1,0,0,0,4 * 1,361,1,970,3,330,-2,2 * 577.9234,"NIST 46.6","n.a." * 3619700,"HgEGTA-2",-137.1,30.8,0,0,-2,0,0,0,4 * 1,361,1,970,2,330,-2,2 * 576.9154,"NIST 46.6","NIST 46.6" * 1159700,"BiEGTA-",0,25.96,0,0,-1,0,0,0,2 * 1,115,1,970 * 585.3,"NIST 46.6","n.a." * 309701,"AlHEGTA (aq)",0,20.01,0,0,0,0,0,0,3 * 1,30,1,970,1,330 * 404.3095,"NIST 46.6","n.a." * 309700,"AlEGTA-",0,16.46,0,0,-1,0,0,0,2 * 1,30,1,970 * 403.3015,"NIST 46.6","n.a." * 6009701,"PbHEGTA-",0,21.78,0,0,-1,0,0,0,3 * 1,600,1,970,1,330 * 584.5179,"NIST 46.6","n.a." * 6009700,"PbEGTA-2",-52.3,16.31,0,0,-2,0,0,0,2 * 1,600,1,970 * 583.5099,"NIST 46.6","NIST 46.6" * 1609701,"CdHEGTA-",0,21.7,0,0,-1,0,0,0,3 * 1,160,1,970,1,330 * 489.7274,"NIST 46.6","n.a." * 1609700,"CdEGTA-2",-60.6,18.21,0,0,-2,0,0,0,2 * 1,160,1,970 * 488.7194,"NIST 46.6","NIST 46.6" * 9509702,"ZnH2EGTA (aq)",0,23.21,0,0,0,0,0,0,3 * 1,950,1,970,2,330 * 443.7,"NIST 46.6","n.a." * 9509701,"ZnHEGTA-",0,19.7,0,0,-1,0,0,0,3 * 1,950,1,970,1,330 * 442.6979,"NIST 46.6","n.a." * 9509700,"ZnEGTA-2",-20,14.31,0,0,-2,0,0,0,2 * 1,950,1,970 * 441.6899,"NIST 46.6","NIST 46.6" * 8709701,"TlHEGTA-2",0,14.81,0,0,-2,0,0,0,3 * 1,870,1,970,1,330 * 581.698,"NIST 46.6","n.a." * 8709700,"TlEGTA-3",0,5.23,0,0,-3,0,0,0,2 * 1,870,1,970 * 580.69,"NIST 46.6","n.a." * 209701,"AgHEGTA-2",0,16.19,0,0,-2,0,0,0,3 * 1,20,1,970,1,330 * 485.196,"NIST 46.6","n.a." * 209700,"AgEGTA-3",0,7.9,0,0,-3,0,0,0,2 * 1,20,1,970 * 484.188,"NIST 46.6","n.a." * 9029701,"VOHEGTA-",0,21.92,0,0,-1,0,0,0,3 * 1,902,1,970,1,330 * 444.267,"NIST 46.6","n.a." * 9029700,"VOEGTA-2",0,16.18,0,0,-2,0,0,0,2 * 1,902,1,970 * 443.259,"NIST 46.6","n.a." * 9519700,"ZrEGTA (aq)",-33,26.45,0,0,0,0,0,0,2 * 1,951,1,970 * 467.544,"NIST 46.6","NIST 46.6" * 2819700,"FeEGTA-",0,23.06,0,0,-1,0,0,0,2 * 1,281,1,970 * 432.167,"NIST 46.6","n.a." * 2809701,"FeHEGTA-",0,18.41,0,0,-1,0,0,0,3 * 1,280,1,970,1,330 * 433.175,"NIST 46.6","n.a." * 2809700,"FeEGTA-2",-21,13.51,0,0,-2,0,0,0,2 * 1,280,1,970 * 432.167,"NIST 46.6","NIST 46.6" * 4709701,"MnHEGTA-",0,18.28,0,0,-1,0,0,0,3 * 1,470,1,970,1,330 * 432.266,"NIST 46.6","n.a." * 4709700,"MnEGTA-2",-36,13.91,0,0,-2,0,0,0,2 * 1,470,1,970 * 431.258,"NIST 46.6","NIST 46.6" * 8029701,"ThOHEGTA-",0,-3.247,0,0,-1,0,0,0,4 * 1,802,1,970,-1,330,1,2 * 625.3673,"NIST 46.6","n.a." * 8029700,"ThEGTA (aq)",12,23.95,0,0,0,0,0,0,2 * 1,802,1,970 * 608.36,"NIST 46.6","NIST 46.6" * 1709700,"CfEGTA-",0,20.46,0,0,-1,0,0,0,2 * 1,170,1,970 * 627.32,"NIST 46.6","n.a." * 1909700,"CmEGTA-",0,20.66,0,0,-1,0,0,0,2 * 1,190,1,970 * 623.32,"NIST 46.6","n.a." * 459700,"AmEGTA-",0,20.76,0,0,-1,0,0,0,2 * 1,45,1,970 * 619.32,"NIST 46.6","n.a." * 4509700,"LuEGTA-",0,20.76,0,0,-1,0,0,0,2 * 1,450,1,970 * 551.287,"NIST 46.6","n.a." * 8069700,"YbEGTA-",0,20.56,0,0,-1,0,0,0,2 * 1,806,1,970 * 549.36,"NIST 46.6","n.a." * 8809700,"TmEGTA-",0,20.36,0,0,-1,0,0,0,2 * 1,880,1,970 * 545.254,"NIST 46.6","n.a." * 3709700,"HoEGTA-",0,20.26,0,0,-1,0,0,0,2 * 1,370,1,970 * 541.25,"NIST 46.6","n.a." * 2509700,"ErEGTA-",0,20.36,0,0,-1,0,0,0,2 * 1,250,1,970 * 543.579,"NIST 46.6","n.a." * 2409700,"DyEGTA-",0,20.26,0,0,-1,0,0,0,2 * 1,240,1,970 * 538.82,"NIST 46.6","n.a." * 3109700,"GdEGTA-",0,19.86,0,0,-1,0,0,0,2 * 1,310,1,970 * 533.57,"NIST 46.6","n.a." * 8019700,"TbEGTA-",0,20.16,0,0,-1,0,0,0,2 * 1,801,1,970 * 535.245,"NIST 46.6","n.a." * 2609700,"EuEGTA-",0,20.06,0,0,-1,0,0,0,2 * 1,260,1,970 * 528.284,"NIST 46.6","n.a." * 7809700,"SmEGTA-",0,19.66,0,0,-1,0,0,0,2 * 1,780,1,970 * 526.68,"NIST 46.6","n.a." * 5859700,"PrEGTA-",0,18.78,0,0,-1,0,0,0,2 * 1,585,1,970 * 517.228,"NIST 46.6","n.a." * 5209700,"NdEGTA-",0,19.05,0,0,-1,0,0,0,2 * 1,520,1,970 * 520.56,"NIST 46.6","n.a." * 4209700,"LaEGTA-",-23,18.23,0,0,-1,0,0,0,2 * 1,420,1,970 * 515.226,"NIST 46.6","NIST 46.6" * 8059700,"YEGTA-",0,19.66,0,0,-1,0,0,0,2 * 1,805,1,970 * 465.23,"NIST 46.6","n.a." * 7509700,"ScEGTA-",0,20.76,0,0,-1,0,0,0,2 * 1,750,1,970 * 421.276,"NIST 46.6","n.a." * 1009701,"BaHEGTA-",0,15.75,0,0,-1,0,0,0,3 * 1,100,1,970,1,330 * 514.668,"NIST 46.6","n.a." * 1009700,"BaEGTA-2",-37,10.01,0,0,-2,0,0,0,2 * 1,100,1,970 * 513.66,"NIST 46.6","NIST 46.6" * 8009701,"SrHEGTA-",0,15.89,0,0,-1,0,0,0,3 * 1,800,1,970,1,330 * 464.948,"NIST 46.6","n.a." * 8009700,"SrEGTA-2",-25,10.13,0,0,-2,0,0,0,2 * 1,800,1,970 * 463.94,"NIST 46.6","NIST 46.6" * 1509701,"CaHEGTA-",0,16.81,0,0,-1,0,0,0,3 * 1,150,1,970,1,330 * 417.408,"NIST 46.6","n.a." * 1509700,"CaEGTA-2",-33,12.57,0,0,-2,0,0,0,2 * 1,150,1,970 * 416.4,"NIST 46.6","NIST 46.6" * 4609701,"MgHEGTA-",0,15.01,0,0,-1,0,0,0,3 * 1,460,1,970,1,330 * 401.64,"NIST 46.6","n.a." * 4609700,"MgEGTA-2",23,6.99,0,0,-2,0,0,0,2 * 1,460,1,970 * 400.632,"NIST 46.6","NIST 46.6" * 9703304,"H5EGTA+",0,25.62,0,0,1,0,0,0,2 * 1,970,5,330 * 381.36,"NIST 46.6","n.a." * 9703303,"H4EGTA (aq)",-57,24.77,0,0,0,0,0,0,2 * 1,970,4,330 * 380.352,"NIST 46.6","NIST 46.6" * 9703302,"H3EGTA-",-56,22.87,0,0,-1,0,0,0,2 * 1,970,3,330 * 379.344,"NIST 46.6","NIST 46.6" * 9703301,"H2EGTA-2",-46,19.53,0,0,-2,0,0,0,2 * 1,970,2,330 * 378.336,"NIST 46.6","NIST 46.6" * 9703300,"HEGTA-3",-23,10.17,0,0,-3,0,0,0,2 * 1,970,1,330 * 377.328,"NIST 46.6","NIST 46.6" * 3309711,"H-Propionate (aq)",.75,4.874,0,0,0,0,0,0,2 * 1,330,1,971 * 74.0799,"NIST 46.6","NIST 46.6" * 309710,"Al-Propionate+2",12,2.3,0,0,2,0,0,0,2 * 1,30,1,971 * 100.0535,"NIST 46.6","NIST 46.6" * 5709710,"Pd-Propionate+",0,4.73,0,0,1,0,0,0,2 * 1,570,1,971 * 179.492,"NIST 46.6","NIST 46.6" * 9029711,"VO-(Propionate)2 (aq)",0,4.17,0,0,0,0,0,0,2 * 1,902,2,971 * 213.083,"NIST 46.6","n.a." * 9029710,"VO-Propionate+",0,2.32,0,0,1,0,0,0,2 * 1,902,1,971 * 140.011,"NIST 46.6","n.a." * 8939713,"UO2-(Propionate)4-2",0,8.72,0,0,-2,0,0,0,2 * 1,893,4,971 * 562.3158,"NIST 46.6","n.a." * 8939712,"UO2-(Propionate)3-",0,7.16,0,0,-1,0,0,0,2 * 1,893,3,971 * 489.2438,"NIST 46.6","n.a." * 8939711,"UO2-(Propionate)2 (aq)",0,5.39,0,0,0,0,0,0,2 * 1,893,2,971 * 416.1718,"NIST 46.6","n.a." * 8939710,"UO2-Propionate+",0,2.94,0,0,1,0,0,0,2 * 1,893,1,971 * 343.0998,"NIST 46.6","n.a." * 8029713,"Th-(Propionate)4 (aq)",0,13.34,0,0,0,0,0,0,2 * 1,802,4,971 * 524.328,"NIST 46.6","n.a." * 8029712,"Th-(Propionate)3+",0,11.28,0,0,1,0,0,0,2 * 1,802,3,971 * 451.256,"NIST 46.6","n.a." * 8029711,"Th-(Propionate)2+2",0,8.68,0,0,2,0,0,0,2 * 1,802,2,971 * 378.184,"NIST 46.6","n.a." * 8029710,"Th-Propionate+3",0,4.76,0,0,3,0,0,0,2 * 1,802,1,971 * 305.112,"NIST 46.6","n.a." * 4509711,"Lu-(Propionate)2+",26,4.61,0,0,1,0,0,0,2 * 1,450,2,971 * 321.111,"NIST 46.6","NIST 46.6" * 4509710,"Lu-Propionate+2",15,2.65,0,0,2,0,0,0,2 * 1,450,1,971 * 248.039,"NIST 46.6","NIST 46.6" * 8069711,"Yb-(Propionate)2+",27,4.46,0,0,1,0,0,0,2 * 1,806,2,971 * 319.184,"NIST 46.6","NIST 46.6" * 8069710,"Yb-Propionate+2",15,2.58,0,0,2,0,0,0,2 * 1,806,1,971 * 246.112,"NIST 46.6","NIST 46.6" * 8809711,"Tm-(Propionate)2+",28,4.52,0,0,1,0,0,0,2 * 1,880,2,971 * 315.078,"NIST 46.6","NIST 46.6" * 8809710,"Tm-Propionate+2",16,2.56,0,0,2,0,0,0,2 * 1,880,1,971 * 242.006,"NIST 46.6","NIST 46.6" * 2509711,"Er-(Propionate)2+",26,4.56,0,0,1,0,0,0,2 * 1,250,2,971 * 313.403,"NIST 46.6","NIST 46.6" * 2509710,"Er-Propionate+2",16,2.59,0,0,2,0,0,0,2 * 1,250,1,971 * 240.331,"NIST 46.6","NIST 46.6" * 3709711,"Ho-(Propionate)2+",23,4.54,0,0,1,0,0,0,2 * 1,370,2,971 * 311.074,"NIST 46.6","NIST 46.6" * 3709710,"Ho-Propionate+2",16,2.61,0,0,2,0,0,0,2 * 1,370,1,971 * 238.002,"NIST 46.6","NIST 46.6" * 2409711,"Dy-(Propionate)2+",18,4.53,0,0,1,0,0,0,2 * 1,240,2,971 * 308.644,"NIST 46.6","NIST 46.6" * 2409710,"Dy-Propionate+2",15,2.58,0,0,2,0,0,0,2 * 1,240,1,971 * 235.572,"NIST 46.6","NIST 46.6" * 8019711,"Tb-(Propionate)2+",15,4.67,0,0,1,0,0,0,2 * 1,801,2,971 * 305.069,"NIST 46.6","NIST 46.6" * 8019710,"Tb-Propionate+2",12,2.65,0,0,2,0,0,0,2 * 1,801,1,971 * 231.997,"NIST 46.6","NIST 46.6" * 3109711,"Gd-(Propionate)2+",12,4.65,0,0,1,0,0,0,2 * 1,310,2,971 * 303.394,"NIST 46.6","NIST 46.6" * 3109710,"Gd-Propionate+2",9.2,2.74,0,0,2,0,0,0,2 * 1,310,1,971 * 230.322,"NIST 46.6","NIST 46.6" * 2609711,"Eu-(Propionate)2+",11,4.83,0,0,1,0,0,0,2 * 1,260,2,971 * 298.108,"NIST 46.6","NIST 46.6" * 2609710,"Eu-Propionate+2",7.5,2.88,0,0,2,0,0,0,2 * 1,260,1,971 * 225.036,"NIST 46.6","NIST 46.6" * 7809711,"Sm-(Propionate)2+",12,4.78,0,0,1,0,0,0,2 * 1,780,2,971 * 296.504,"NIST 46.6","NIST 46.6" * 7809710,"Sm-Propionate+2",6.6,2.86,0,0,2,0,0,0,2 * 1,780,1,971 * 223.432,"NIST 46.6","NIST 46.6" * 5209711,"Nd-(Propionate)2+",13,4.5,0,0,1,0,0,0,2 * 1,520,2,971 * 290.384,"NIST 46.6","NIST 46.6" * 5209710,"Nd-Propionate+2",7.5,2.85,0,0,2,0,0,0,2 * 1,520,1,971 * 217.312,"NIST 46.6","NIST 46.6" * 5859711,"Pr-(Propionate)2+",15,4.54,0,0,1,0,0,0,2 * 1,585,2,971 * 287.052,"NIST 46.6","NIST 46.6" * 5859710,"Pr-Propionate+2",7.9,2.77,0,0,2,0,0,0,2 * 1,585,1,971 * 213.98,"NIST 46.6","NIST 46.6" * 4209711,"La-(Propionate)2+",17,4.15,0,0,1,0,0,0,2 * 1,420,2,971 * 285.05,"NIST 46.6","NIST 46.6" * 4209710,"La-Propionate+2",10,2.54,0,0,2,0,0,0,2 * 1,420,1,971 * 211.978,"NIST 46.6","NIST 46.6" * 8059711,"Y-(Propionate)2+",24,4.14,0,0,1,0,0,0,2 * 1,805,2,971 * 235.054,"NIST 46.6","NIST 46.6" * 8059710,"Y-Propionate+2",16,2.53,0,0,2,0,0,0,2 * 1,805,1,971 * 161.982,"NIST 46.6","NIST 46.6" * 7509710,"Sc-Propionate+2",0,4.42,0,0,2,0,0,0,2 * 1,750,1,971 * 118.028,"NIST 46.6","n.a." * 6009711,"Pb-Propionate+",0,2.64,0,0,1,0,0,0,2 * 1,600,1,971 * 280.272,"NIST 46.6","n.a." * 6009712,"Pb-(Propionate)2 (aq)",0,4.15,0,0,0,0,0,0,2 * 1,600,2,971 * 353.344,"NIST 46.6","n.a." * 9509711,"Zn-Propionate+",0,1.44,0,0,1,0,0,0,2 * 1,950,1,971 * 138.462,"NIST 46.6","n.a." * 9509712,"Zn-(Propionate)2 (aq)",0,1.93,0,0,0,0,0,0,2 * 1,950,2,971 * 211.534,"NIST 46.6","n.a." * 1609711,"Cd-Propionate+",0,1.6,0,0,1,0,0,0,2 * 1,160,1,971 * 185.482,"NIST 46.6","n.a." * 1609712,"Cd-(Propionate)2 (aq)",0,2.57,0,0,0,0,0,0,2 * 1,160,2,971 * 258.554,"NIST 46.6","n.a." * 3619711,"Hg-Propionate+",0,10.594,0,0,1,0,0,0,4 * 1,361,-2,2,2,330,1,971 * 273.6572,"NIST46.4","NIST46.2" * 2319711,"Cu-Propionate+",4.1,2.22,0,0,1,0,0,0,2 * 1,231,1,971 * 136.618,"NIST 46.6","NIST 46.6" * 2319712,"Cu-(Propionate)2 (aq)",0,3.5,0,0,0,0,0,0,2 * 1,231,2,971 * 209.69,"NIST 46.6","n.a." * 5409711,"Ni-Propionate+",4.6,1.19,0,0,1,0,0,0,2 * 1,540,1,971 * 131.762,"NIST 46.6","NIST 46.6" * 2009711,"Co-Propionate+",4.6,1.13,0,0,1,0,0,0,2 * 1,200,1,971 * 132.0052,"NIST 46.6","NIST 46.6" * 2819711,"Fe-Propionate+2",21,3.71,0,0,2,0,0,0,2 * 1,281,1,971 * 128.919,"NIST 46.6","NIST 46.6" * 2119711,"Cr-Propionate+2",-89.6,15.35,0,0,2,0,0,0,4 * 1,211,-2,2,2,330,1,971 * 125.068,"NIST 46.6","NIST 46.6" * 2119712,"Cr-(Propionate)2+",0,18.22,0,0,1,0,0,0,4 * 1,211,-2,2,2,330,2,971 * 198.14,"NIST 46.6","n.a." * 2119713,"Cr-(Propionate)3 (aq)",0,20.52,0,0,0,0,0,0,4 * 1,211,-2,2,2,330,3,971 * 271.212,"NIST 46.6","n.a." * 4609710,"Mg-Propionate+",4.2677,.97,0,0,1,0,0,0,2 * 1,460,1,971 * 97.377,"NIST 46.6","SCD2.62" * 1509710,"Ca-Propionate+",3.3472,.93,0,0,1,0,0,0,2 * 1,150,1,971 * 113.15,"NIST 46.6","SCD2.62" * 8009711,"Sr-Propionate+",0,.86,0,0,1,0,0,0,2 * 1,800,1,971 * 160.692,"NIST 46.6","n.a." * 1009711,"Ba-Propionate+",0,.77,0,0,1,0,0,0,2 * 1,100,1,971 * 210.402,"NIST 46.6","n.a." * 1009712,"Ba-(Propionate)2 (aq)",0,.9834,0,0,0,0,0,0,2 * 1,100,2,971 * 283.474,"NIST46.4","SCD2.62" * 3309721,"H-Butyrate (aq)",2.8,4.818,0,0,0,0,0,0,2 * 1,330,1,972 * 88.1059,"NIST 46.6","NIST 46.6" * 309720,"Al-Butyrate+2",0,2.19,0,0,2,0,0,0,2 * 1,30,1,972 * 114.0795,"NIST 46.6","n.a." * 5709720,"Pd-Butyrate+",-12,4.79,0,0,1,0,0,0,2 * 1,570,1,972 * 193.518,"NIST 46.6","NIST 46.6" * 9029721,"VO-(Butyrate)2 (aq)",0,4.08,0,0,0,0,0,0,2 * 1,902,2,972 * 241.135,"NIST 46.6","n.a." * 9029720,"VO-Butyrate+",0,2.35,0,0,1,0,0,0,2 * 1,902,1,972 * 154.037,"NIST 46.6","n.a." * 2819720,"Fe-Butyrate+2",11,3.41,0,0,2,0,0,0,2 * 1,281,1,972 * 142.945,"NIST 46.6","NIST 46.6" * 8939722,"UO2-(Butyrate)3-",0,7.52,0,0,-1,0,0,0,2 * 1,893,3,972 * 531.3218,"NIST 46.6","n.a." * 8939721,"UO2-(Butyrate)2 (aq)",0,5.42,0,0,0,0,0,0,2 * 1,893,2,972 * 444.2238,"NIST 46.6","n.a." * 8939720,"UO2-Butyrate+",0,2.99,0,0,1,0,0,0,2 * 1,893,1,972 * 357.1258,"NIST 46.6","n.a." * 8029722,"Th-(Butyrate)3+",0,11.58,0,0,1,0,0,0,2 * 1,802,3,972 * 493.334,"NIST 46.6","n.a." * 8029721,"Th-(Butyrate)2+2",0,8.43,0,0,2,0,0,0,2 * 1,802,2,972 * 406.236,"NIST 46.6","n.a." * 8029720,"Th-Butyrate+3",0,4.72,0,0,3,0,0,0,2 * 1,802,1,972 * 319.138,"NIST 46.6","n.a." * 5209720,"Nd-Butyrate+2",0,2.69,0,0,2,0,0,0,2 * 1,520,1,972 * 231.338,"NIST 46.6","n.a." * 6009721,"Pb-Butyrate+",0,2.101,0,0,1,0,0,0,2 * 1,600,1,972 * 294.298,"NIST46.4","SCD2.62" * 9509721,"Zn-Butyrate+",0,1.43,0,0,1,0,0,0,2 * 1,950,1,972 * 152.488,"NIST 46.6","n.a." * 3619721,"Hg-Butyrate+",0,10.2,0,0,1,0,0,0,4 * 1,361,-2,2,2,330,1,972 * 287.6832,"NIST 46.6","n.a." * 2319721,"Cu-Butyrate+",0,2.14,0,0,1,0,0,0,2 * 1,231,1,972 * 150.644,"NIST 46.6","n.a." * 5409721,"Ni-Butyrate+",0,.691,0,0,1,0,0,0,2 * 1,540,1,972 * 145.788,"NIST46.4","SCD2.62" * 2009721,"Co-Butyrate+",0,.591,0,0,1,0,0,0,2 * 1,200,1,972 * 146.0312,"NIST46.4","NIST46.2" * 2009722,"Co-(Butyrate)2 (aq)",0,.7765,0,0,0,0,0,0,2 * 1,200,2,972 * 233.1292,"NIST46.4","NIST46.2" * 4609720,"Mg-Butyrate+",0,.96,0,0,1,0,0,0,2 * 1,460,1,972 * 111.403,"NIST 46.6","n.a." * 1509720,"Ca-Butyrate+",3.3472,.94,0,0,1,0,0,0,2 * 1,150,1,972 * 127.176,"NIST 46.6","SCD2.62" * 8009721,"Sr-Butyrate+",0,.79,0,0,1,0,0,0,2 * 1,800,1,972 * 174.718,"NIST 46.6","n.a." * 1009721,"Ba-Butyrate+",0,.74,0,0,1,0,0,0,2 * 1,100,1,972 * 224.428,"NIST 46.6","n.a." * 1009722,"Ba-(Butyrate)2 (aq)",0,.88,0,0,0,0,0,0,2 * 1,100,2,972 * 311.526,"SCD2.62","SCD2.62" * 3309731,"H-iButyrate (aq)",3.2,4.849,0,0,0,0,0,0,2 * 1,330,1,973 * 88.1059,"NIST 46.6","NIST 46.6" * 9029731,"VO-(iButyrate)2 (aq)",0,4.1,0,0,0,0,0,0,2 * 1,902,2,973 * 241.135,"NIST 46.6","n.a." * 9029730,"VO-iButyrate+",0,2.38,0,0,1,0,0,0,2 * 1,902,1,973 * 154.037,"NIST 46.6","n.a." * 8939732,"UO2-(iButyrate)3-",0,7.81,0,0,-1,0,0,0,2 * 1,893,3,973 * 531.3218,"NIST 46.6","n.a." * 8939731,"UO2-(iButyrate)2 (aq)",0,5.58,0,0,0,0,0,0,2 * 1,893,2,973 * 444.2238,"NIST 46.6","n.a." * 8939730,"UO2-iButyrate+",0,2.89,0,0,1,0,0,0,2 * 1,893,1,973 * 357.1258,"NIST 46.6","n.a." * 8029731,"Th-(iButyrate)2+2",0,8.73,0,0,2,0,0,0,2 * 1,802,2,973 * 406.236,"NIST 46.6","n.a." * 8029730,"Th-iButyrate+3",0,4.67,0,0,3,0,0,0,2 * 1,802,1,973 * 319.138,"NIST 46.6","n.a." * 4509731,"Lu-(iButyrate)2+",37,3.66,0,0,1,0,0,0,2 * 1,450,2,973 * 349.163,"NIST 46.6","NIST 46.6" * 4509730,"Lu-iButyrate+2",22,2.62,0,0,2,0,0,0,2 * 1,450,1,973 * 262.065,"NIST 46.6","NIST 46.6" * 8069731,"Yb-(iButyrate)2+",26,4.69,0,0,1,0,0,0,2 * 1,806,2,973 * 347.236,"NIST 46.6","NIST 46.6" * 8069730,"Yb-iButyrate+2",23,2.66,0,0,2,0,0,0,2 * 1,806,1,973 * 260.138,"NIST 46.6","NIST 46.6" * 8809731,"Tm-(iButyrate)2+",39,3.62,0,0,1,0,0,0,2 * 1,880,2,973 * 343.13,"NIST 46.6","NIST 46.6" * 8809730,"Tm-iButyrate+2",22,2.5,0,0,2,0,0,0,2 * 1,880,1,973 * 256.032,"NIST 46.6","NIST 46.6" * 2509731,"Er-(iButyrate)2+",37,3.93,0,0,1,0,0,0,2 * 1,250,2,973 * 341.455,"NIST 46.6","NIST 46.6" * 2509730,"Er-iButyrate+2",23,2.5,0,0,2,0,0,0,2 * 1,250,1,973 * 254.357,"NIST 46.6","NIST 46.6" * 3709731,"Ho-(iButyrate)2+",33,4.26,0,0,1,0,0,0,2 * 1,370,2,973 * 339.126,"NIST 46.6","NIST 46.6" * 3709730,"Ho-iButyrate+2",22,2.51,0,0,2,0,0,0,2 * 1,370,1,973 * 252.028,"NIST 46.6","NIST 46.6" * 2409731,"Dy-(iButyrate)2+",28,3.91,0,0,1,0,0,0,2 * 1,240,2,973 * 336.696,"NIST 46.6","NIST 46.6" * 2409730,"Dy-iButyrate+2",20,2.55,0,0,2,0,0,0,2 * 1,240,1,973 * 249.598,"NIST 46.6","NIST 46.6" * 8019731,"Tb-(iButyrate)2+",24,4.18,0,0,1,0,0,0,2 * 1,801,2,973 * 333.121,"NIST 46.6","NIST 46.6" * 8019730,"Tb-iButyrate+2",18,2.63,0,0,2,0,0,0,2 * 1,801,1,973 * 246.023,"NIST 46.6","NIST 46.6" * 3109731,"Gd-(iButyrate)2+",21,4.62,0,0,1,0,0,0,2 * 1,310,2,973 * 331.446,"NIST 46.6","NIST 46.6" * 3109730,"Gd-iButyrate+2",14,2.68,0,0,2,0,0,0,2 * 1,310,1,973 * 244.348,"NIST 46.6","NIST 46.6" * 2609731,"Eu-(iButyrate)2+",20,4.44,0,0,1,0,0,0,2 * 1,260,2,973 * 326.16,"NIST 46.6","NIST 46.6" * 2609730,"Eu-iButyrate+2",12,2.79,0,0,2,0,0,0,2 * 1,260,1,973 * 239.062,"NIST 46.6","NIST 46.6" * 7809731,"Sm-(iButyrate)2+",19,4.64,0,0,1,0,0,0,2 * 1,780,2,973 * 324.556,"NIST 46.6","NIST 46.6" * 7809730,"Sm-iButyrate+2",11,2.86,0,0,2,0,0,0,2 * 1,780,1,973 * 237.458,"NIST 46.6","NIST 46.6" * 5209731,"Nd-(iButyrate)2+",21,4.44,0,0,1,0,0,0,2 * 1,520,2,973 * 318.436,"NIST 46.6","NIST 46.6" * 5209730,"Nd-iButyrate+2",11,2.79,0,0,2,0,0,0,2 * 1,520,1,973 * 231.338,"NIST 46.6","NIST 46.6" * 5859731,"Pr-(iButyrate)2+",23,4.52,0,0,1,0,0,0,2 * 1,585,2,973 * 315.104,"NIST 46.6","NIST 46.6" * 5859730,"Pr-iButyrate+2",12,2.73,0,0,2,0,0,0,2 * 1,585,1,973 * 228.006,"NIST 46.6","NIST 46.6" * 4209731,"La-(iButyrate)2+",25,3.5,0,0,1,0,0,0,2 * 1,420,2,973 * 313.102,"NIST 46.6","NIST 46.6" * 4209730,"La-iButyrate+2",14,2.45,0,0,2,0,0,0,2 * 1,420,1,973 * 226.004,"NIST 46.6","NIST 46.6" * 8059731,"Y-(iButyrate)2+",40,4.05,0,0,1,0,0,0,2 * 1,805,2,973 * 263.106,"NIST 46.6","NIST 46.6" * 8059730,"Y-iButyrate+2",22,2.41,0,0,2,0,0,0,2 * 1,805,1,973 * 176.008,"NIST 46.6","NIST 46.6" * 9509731,"Zn-iButyrate+",0,1.44,0,0,1,0,0,0,2 * 1,950,1,973 * 152.488,"NIST 46.6","NIST 46.6" * 2319731,"Cu-iButyrate+",0,2.17,0,0,1,0,0,0,2 * 1,231,1,973 * 150.644,"NIST 46.6","n.a." * 2319732,"Cu-(iButyrate)2 (aq)",0,3.36,0,0,0,0,0,0,2 * 1,231,2,973 * 237.742,"NIST 46.6","n.a." * 2819731,"Fe-iButyrate+2",12,3.91,0,0,2,0,0,0,2 * 1,281,1,973 * 142.945,"NIST 46.6","NIST 46.6" * 1509731,"Ca-iButyrate+",0,.51,0,0,1,0,0,0,2 * 1,150,1,973 * 127.176,"SCD2.62","SCD2.62" * 8919741,"UOH-DTPA-2",0,27.68,0,0,-2,0,0,0,4 * 1,891,1,974,-1,330,1,2 * 643.1703,"NIST 46.6","n.a." * 8919740,"U-DTPA-",0,34.2,0,0,-1,0,0,0,2 * 1,891,1,974 * 626.163,"NIST 46.6","n.a." * 2319743,"CuH2-DTPA-",0,32.18,0,0,-1,0,0,0,3 * 1,231,1,974,2,330 * 453.696,"NIST 46.6","n.a." * 1159743,"BiOH-DTPA-3",0,30.79,0,0,-3,0,0,0,4 * 1,115,1,974,-1,330,1,2 * 614.1213,"NIST 46.6","n.a." * 1159742,"BiH2-DTPA (aq)",0,38.77,0,0,0,0,0,0,3 * 1,115,1,974,2,330 * 599.13,"NIST 46.6","n.a." * 1159741,"BiH-DTPA-",0,36.75,0,0,-1,0,0,0,3 * 1,115,1,974,1,330 * 598.122,"NIST 46.6","n.a." * 1159740,"Bi-DTPA-2",0,33.92,0,0,-2,0,0,0,2 * 1,115,1,974 * 597.114,"NIST 46.6","n.a." * 3909741,"InOH-DTPA-3",0,29.99,0,0,-3,0,0,0,4 * 1,390,1,974,-1,330,1,2 * 519.9593,"NIST 46.6","n.a." * 3909740,"In-DTPA-2",0,32.52,0,0,-2,0,0,0,2 * 1,390,1,974 * 502.952,"NIST 46.6","n.a." * 2909742,"GaOH-DTPA-3",0,20.6,0,0,-3,0,0,0,4 * 1,290,1,974,-1,330,1,2 * 474.8643,"NIST 46.6","n.a." * 2909741,"GaH-DTPA-",0,32.11,0,0,-1,0,0,0,3 * 1,290,1,974,1,330 * 458.865,"NIST 46.6","n.a." * 2909740,"Ga-DTPA-2",0,27.52,0,0,-2,0,0,0,2 * 1,290,1,974 * 457.857,"NIST 46.6","n.a." * 309742,"AlOH-DTPA-3",0,14.59,0,0,-3,0,0,0,4 * 1,30,1,974,-1,330,1,2 * 432.1228,"NIST 46.6","n.a." * 309741,"AlH-DTPA-",0,26.55,0,0,-1,0,0,0,3 * 1,30,1,974,1,330 * 416.1235,"NIST 46.6","n.a." * 309740,"Al-DTPA-2",-30,21.82,0,0,-2,0,0,0,2 * 1,30,1,974 * 415.1155,"NIST 46.6","NIST 46.6" * 6009742,"Pb2-DTPA-",0,25.65,0,0,-1,0,0,0,2 * 2,600,1,974 * 802.5138,"NIST 46.6","n.a." * 6009741,"PbH-DTPA-2",0,26.76,0,0,-2,0,0,0,3 * 1,600,1,974,1,330 * 596.3319,"NIST 46.6","n.a." * 6009740,"Pb-DTPA-3",-78.6,20.95,0,0,-3,0,0,0,2 * 1,600,1,974 * 595.3239,"NIST 46.6","NIST 46.6" * 3619741,"HgH-DTPA-2",0,40.274,0,0,-2,0,0,0,4 * 1,361,1,974,3,330,-2,2 * 589.7374,"NIST 46.6","n.a." * 3619740,"Hg-DTPA-3",-138.42,34.74,0,0,-3,0,0,0,4 * 1,361,1,974,2,330,-2,2 * 588.73,"NIST 46.6","NIST 46.6" * 1609742,"Cd2-DTPA-",0,24.74,0,0,-1,0,0,0,2 * 2,160,1,974 * 612.9328,"NIST 46.6","n.a." * 1609741,"CdH-DTPA-2",0,26.61,0,0,-2,0,0,0,3 * 1,160,1,974,1,330 * 501.5414,"NIST 46.6","n.a." * 1609740,"Cd-DTPA-3",-51.8,21.15,0,0,-3,0,0,0,2 * 1,160,1,974 * 500.5334,"NIST 46.6","NIST 46.6" * 9509742,"Zn2-DTPA-",0,26.12,0,0,-1,0,0,0,2 * 2,950,1,974 * 518.8738,"NIST 46.6","n.a." * 9509741,"ZnH-DTPA-2",0,26.59,0,0,-2,0,0,0,3 * 1,950,1,974,1,330 * 454.5119,"NIST 46.6","n.a." * 9509740,"Zn-DTPA-3",-44.3,20.35,0,0,-3,0,0,0,2 * 1,950,1,974 * 453.5039,"NIST 46.6","NIST 46.6" * 5709744,"PdH4-DTPA+",0,43.78,0,0,1,0,0,0,3 * 1,570,1,974,4,330 * 498.586,"NIST 46.6","n.a." * 5709743,"PdH3-DTPA (aq)",0,42.05,0,0,0,0,0,0,3 * 1,570,1,974,3,330 * 497.578,"NIST 46.6","n.a." * 5709742,"PdH2-DTPA-",0,39.19,0,0,-1,0,0,0,3 * 1,570,1,974,2,330 * 496.57,"NIST 46.6","n.a." * 5709741,"PdH-DTPA-2",0,35.85,0,0,-2,0,0,0,3 * 1,570,1,974,1,330 * 495.562,"NIST 46.6","n.a." * 5709740,"Pd-DTPA-3",0,31.74,0,0,-3,0,0,0,2 * 1,570,1,974 * 494.554,"NIST 46.6","n.a." * 8709741,"TlH-DTPA-3",0,16.7,0,0,-3,0,0,0,3 * 1,870,1,974,1,330 * 593.512,"NIST 46.6","n.a." * 8709740,"Tl-DTPA-4",0,7.04,0,0,-4,0,0,0,2 * 1,870,1,974 * 592.504,"NIST 46.6","n.a." * 209742,"AgH2-DTPA-2",0,24.18,0,0,-2,0,0,0,3 * 1,20,1,974,2,330 * 498.018,"NIST 46.6","n.a." * 209741,"AgH-DTPA-3",0,18.46,0,0,-3,0,0,0,3 * 1,20,1,974,1,330 * 497.01,"NIST 46.6","n.a." * 209740,"Ag-DTPA-4",0,9.74,0,0,-4,0,0,0,2 * 1,20,1,974 * 496.002,"NIST 46.6","n.a." * 9029742,"VO-(DTPA)2-8",0,21.95,0,0,-8,0,0,0,2 * 1,902,2,974 * 843.21,"NIST 46.6","n.a." * 9029741,"VOH-DTPA-2",0,26.82,0,0,-2,0,0,0,3 * 1,902,1,974,1,330 * 456.081,"NIST 46.6","n.a." * 9029740,"VO-DTPA-3",0,19.01,0,0,-3,0,0,0,2 * 1,902,1,974 * 455.073,"NIST 46.6","n.a." * 9519741,"ZrOH-DTPA-2",0,31.79,0,0,-2,0,0,0,4 * 1,951,1,974,-1,330,1,2 * 496.3653,"NIST 46.6","n.a." * 9519740,"Zr-DTPA-",0,40.1,0,0,-1,0,0,0,2 * 1,951,1,974 * 479.358,"NIST 46.6","n.a." * 2319742,"Cu2-DTPA-",0,31.43,0,0,-1,0,0,0,2 * 2,231,1,974 * 515.226,"NIST 46.6","n.a." * 2319741,"CuH-DTPA-2",0,28.79,0,0,-2,0,0,0,3 * 1,231,1,974,1,330 * 452.688,"NIST 46.6","n.a." * 2319740,"Cu-DTPA-3",-56,23.35,0,0,-3,0,0,0,2 * 1,231,1,974 * 451.68,"NIST 46.6","NIST 46.6" * 5409742,"Ni2-DTPA-",0,29.13,0,0,-1,0,0,0,2 * 2,540,1,974 * 505.554,"NIST 46.6","n.a." * 5409741,"NiH-DTPA-2",0,28.53,0,0,-2,0,0,0,3 * 1,540,1,974,1,330 * 447.852,"NIST 46.6","n.a." * 5409740,"Ni-DTPA-3",-46.8,22.25,0,0,-3,0,0,0,2 * 1,540,1,974 * 446.844,"NIST 46.6","NIST 46.6" * 2009742,"Co2-DTPA-",0,25.98,0,0,-1,0,0,0,2 * 2,200,1,974 * 506.0004,"NIST 46.6","n.a." * 2009741,"CoH-DTPA-2",0,26.53,0,0,-2,0,0,0,3 * 1,200,1,974,1,330 * 448.0752,"NIST 46.6","n.a." * 2009740,"Co-DTPA-3",-39,20.95,0,0,-3,0,0,0,2 * 1,200,1,974 * 447.0672,"NIST 46.6","NIST 46.6" * 2819742,"FeOH-DTPA-3",0,26.45,0,0,-3,0,0,0,4 * 1,281,1,974,-1,330,1,2 * 460.9883,"NIST 46.6","n.a." * 2819741,"FeH-DTPA-",0,35.21,0,0,-1,0,0,0,3 * 1,281,1,974,1,330 * 444.989,"NIST 46.6","n.a." * 2819740,"Fe-DTPA-2",0,31.22,0,0,-2,0,0,0,2 * 1,281,1,974 * 443.981,"NIST 46.6","n.a." * 2809744,"Fe(OH)2-DTPA-5",0,-1.74,0,0,-5,0,0,0,4 * 1,280,1,974,-2,330,2,2 * 477.9956,"NIST 46.6","n.a." * 2809743,"FeOH-DTPA-4",0,11.4,0,0,-4,0,0,0,4 * 1,280,1,974,-1,330,1,2 * 460.9883,"NIST 46.6","n.a." * 2809742,"Fe2-DTPA-",0,22.62,0,0,-1,0,0,0,2 * 2,280,1,974 * 499.828,"NIST 46.6","n.a." * 2809741,"FeH-DTPA-2",0,24.29,0,0,-2,0,0,0,3 * 1,280,1,974,1,330 * 444.989,"NIST 46.6","n.a." * 2809740,"Fe-DTPA-3",-32,18.35,0,0,-3,0,0,0,2 * 1,280,1,974 * 443.981,"NIST 46.6","NIST 46.6" * 4709742,"Mn2-DTPA-",0,20.73,0,0,-1,0,0,0,2 * 2,470,1,974 * 498.01,"NIST 46.6","n.a." * 4709741,"MnH-DTPA-2",0,22.44,0,0,-2,0,0,0,3 * 1,470,1,974,1,330 * 444.08,"NIST 46.6","n.a." * 4709740,"Mn-DTPA-3",-31,17.35,0,0,-3,0,0,0,2 * 1,470,1,974 * 443.072,"NIST 46.6","NIST 46.6" * 8029742,"ThOH-DTPA-2",0,27.69,0,0,-2,0,0,0,4 * 1,802,1,974,-1,330,1,2 * 638.1893,"NIST 46.6","n.a." * 8029741,"ThH-DTPA (aq)",-12,35.38,0,0,0,0,0,0,3 * 1,802,1,974,1,330 * 621.182,"NIST 46.6","NIST 46.6" * 8029740,"Th-DTPA-",-12,33,0,0,-1,0,0,0,2 * 1,802,1,974 * 620.174,"NIST 46.6","NIST 46.6" * 1709740,"Cf-DTPA-2",0,25.82,0,0,-2,0,0,0,2 * 1,170,1,974 * 639.134,"NIST 46.6","n.a." * 1259740,"Bk-DTPA-2",0,26.02,0,0,-2,0,0,0,2 * 1,125,1,974 * 635.134,"NIST 46.6","n.a." * 1909741,"CmH-DTPA-",0,28.18,0,0,-1,0,0,0,3 * 1,190,1,974,1,330 * 636.142,"NIST 46.6","n.a." * 1909740,"Cm-DTPA-2",0,26.22,0,0,-2,0,0,0,2 * 1,190,1,974 * 635.134,"NIST 46.6","n.a." * 459741,"AmH-DTPA-",0,28.12,0,0,-1,0,0,0,3 * 1,45,1,974,1,330 * 632.142,"NIST 46.6","n.a." * 459740,"Am-DTPA-2",0,26.12,0,0,-2,0,0,0,2 * 1,45,1,974 * 631.134,"NIST 46.6","n.a." * 5909740,"Pu-DTPA-2",0,24.56,0,0,-2,0,0,0,2 * 1,590,1,974 * 632.134,"NIST 46.6","n.a." * 4509741,"LuH-DTPA-",0,28.29,0,0,-1,0,0,0,3 * 1,450,1,974,1,330 * 564.109,"NIST 46.6","n.a." * 4509740,"Lu-DTPA-2",-21,25.68,0,0,-2,0,0,0,2 * 1,450,1,974 * 563.101,"NIST 46.6","NIST 46.6" * 8069741,"YbH-DTPA-",0,28.59,0,0,-1,0,0,0,3 * 1,806,1,974,1,330 * 562.182,"NIST 46.6","n.a." * 8069740,"Yb-DTPA-2",-25,25.86,0,0,-2,0,0,0,2 * 1,806,1,974 * 561.174,"NIST 46.6","NIST 46.6" * 8809741,"TmH-DTPA-",0,28.28,0,0,-1,0,0,0,3 * 1,880,1,974,1,330 * 558.076,"NIST 46.6","n.a." * 8809740,"Tm-DTPA-2",-26,25.95,0,0,-2,0,0,0,2 * 1,880,1,974 * 557.068,"NIST 46.6","NIST 46.6" * 2509741,"ErH-DTPA-",0,28.4,0,0,-1,0,0,0,3 * 1,250,1,974,1,330 * 556.401,"NIST 46.6","n.a." * 2509740,"Er-DTPA-2",-30,25.97,0,0,-2,0,0,0,2 * 1,250,1,974 * 555.393,"NIST 46.6","NIST 46.6" * 3709741,"HoH-DTPA-",0,28.69,0,0,-1,0,0,0,3 * 1,370,1,974,1,330 * 554.072,"NIST 46.6","n.a." * 3709740,"Ho-DTPA-2",-30,26.01,0,0,-2,0,0,0,2 * 1,370,1,974 * 553.064,"NIST 46.6","NIST 46.6" * 2409741,"DyH-DTPA-",0,28.67,0,0,-1,0,0,0,3 * 1,240,1,974,1,330 * 551.642,"NIST 46.6","n.a." * 2409740,"Dy-DTPA-2",-31,26.05,0,0,-2,0,0,0,2 * 1,240,1,974 * 550.634,"NIST 46.6","NIST 46.6" * 8019741,"TbH-DTPA-",0,28.51,0,0,-1,0,0,0,3 * 1,801,1,974,1,330 * 548.067,"NIST 46.6","n.a." * 8019740,"Tb-DTPA-2",-31,25.94,0,0,-2,0,0,0,2 * 1,801,1,974 * 547.059,"NIST 46.6","NIST 46.6" * 3109741,"GdH-DTPA-",0,28.43,0,0,-1,0,0,0,3 * 1,310,1,974,1,330 * 546.392,"NIST 46.6","n.a." * 3109740,"Gd-DTPA-2",-31,25.61,0,0,-2,0,0,0,2 * 1,310,1,974 * 545.384,"NIST 46.6","NIST 46.6" * 2609741,"EuH-DTPA-",0,28.19,0,0,-1,0,0,0,3 * 1,260,1,974,1,330 * 541.106,"NIST 46.6","n.a." * 2609740,"Eu-DTPA-2",-32,25.61,0,0,-2,0,0,0,2 * 1,260,1,974 * 540.098,"NIST 46.6","NIST 46.6" * 7809741,"SmH-DTPA-",0,28.2,0,0,-1,0,0,0,3 * 1,780,1,974,1,330 * 539.502,"NIST 46.6","n.a." * 7809740,"Sm-DTPA-2",-33,25.57,0,0,-2,0,0,0,2 * 1,780,1,974 * 538.494,"NIST 46.6","NIST 46.6" * 5209741,"NdH-DTPA-",0,27.66,0,0,-1,0,0,0,3 * 1,520,1,974,1,330 * 533.382,"NIST 46.6","n.a." * 5209740,"Nd-DTPA-2",-30,24.84,0,0,-2,0,0,0,2 * 1,520,1,974 * 532.374,"NIST 46.6","NIST 46.6" * 5859741,"PrH-DTPA-",0,27.13,0,0,-1,0,0,0,3 * 1,585,1,974,1,330 * 530.05,"NIST 46.6","n.a." * 5859740,"Pr-DTPA-2",-26,24.32,0,0,-2,0,0,0,2 * 1,585,1,974 * 529.042,"NIST 46.6","NIST 46.6" * 4209741,"LaH-DTPA-",0,25.74,0,0,-1,0,0,0,3 * 1,420,1,974,1,330 * 528.048,"NIST 46.6","n.a." * 4209740,"La-DTPA-2",-22,22.71,0,0,-2,0,0,0,2 * 1,420,1,974 * 527.04,"NIST 46.6","NIST 46.6" * 8059741,"YH-DTPA-",0,27.61,0,0,-1,0,0,0,3 * 1,805,1,974,1,330 * 478.052,"NIST 46.6","n.a." * 8059740,"Y-DTPA-2",-27,25.27,0,0,-2,0,0,0,2 * 1,805,1,974 * 477.044,"NIST 46.6","NIST 46.6" * 7509740,"Sc-DTPA-2",0,27.12,0,0,-2,0,0,0,2 * 1,750,1,974 * 433.09,"NIST 46.6","n.a." * 1009741,"BaH-DTPA-2",0,16.87,0,0,-2,0,0,0,3 * 1,100,1,974,1,330 * 526.482,"NIST 46.6","n.a." * 1009740,"Ba-DTPA-3",-29,10.89,0,0,-3,0,0,0,2 * 1,100,1,974 * 525.474,"NIST 46.6","NIST 46.6" * 8009741,"SrH-DTPA-2",0,17.98,0,0,-2,0,0,0,3 * 1,800,1,974,1,330 * 476.762,"NIST 46.6","n.a." * 8009740,"Sr-DTPA-3",-29,11.94,0,0,-3,0,0,0,2 * 1,800,1,974 * 475.754,"NIST 46.6","NIST 46.6" * 1509742,"Ca2-DTPA-",0,15.79,0,0,-1,0,0,0,2 * 2,150,1,974 * 468.294,"NIST 46.6","n.a." * 1509741,"CaH-DTPA-2",0,19.65,0,0,-2,0,0,0,3 * 1,150,1,974,1,330 * 429.222,"NIST 46.6","n.a." * 1509740,"Ca-DTPA-3",-24,12.9,0,0,-3,0,0,0,2 * 1,150,1,974 * 428.214,"NIST 46.6","NIST 46.6" * 4609741,"MgH-DTPA-2",0,18.91,0,0,-2,0,0,0,3 * 1,460,1,974,1,330 * 413.454,"NIST 46.6","n.a." * 4609740,"Mg-DTPA-3",12,11.42,0,0,-3,0,0,0,2 * 1,460,1,974 * 412.446,"NIST 46.6","NIST 46.6" * 4109740,"K-DTPA-4",0,1.97,0,0,-4,0,0,0,2 * 1,410,1,974 * 427.236,"NIST 46.6","n.a." * 4409740,"Li-DTPA-4",0,4.17,0,0,-4,0,0,0,2 * 1,440,1,974 * 395.073,"NIST 46.6","n.a." * 9743306,"H7-DTPA+2",0,33.54,0,0,2,0,0,0,2 * 1,974,7,330 * 395.19,"NIST 46.6","n.a." * 9743305,"H6-DTPA+",0,33.05,0,0,1,0,0,0,2 * 1,974,6,330 * 394.182,"NIST 46.6","n.a." * 9743304,"H5-DTPA (aq)",-55.2,31.46,0,0,0,0,0,0,2 * 1,974,5,330 * 393.174,"NIST 46.6","NIST 46.6" * 9743303,"H4-DTPA-",-57.2,29.24,0,0,-1,0,0,0,2 * 1,974,4,330 * 392.166,"NIST 46.6","NIST 46.6" * 9743302,"H3-DTPA-2",-56.2,26.11,0,0,-2,0,0,0,2 * 1,974,3,330 * 391.158,"NIST 46.6","NIST 46.6" * 9743301,"H2-DTPA-3",-50,21.18,0,0,-3,0,0,0,2 * 1,974,2,330 * 390.15,"NIST 46.6","NIST 46.6" * 9743300,"H-DTPA-4",-33,11.72,0,0,-4,0,0,0,2 * 1,974,1,330 * 389.142,"NIST 46.6","NIST 46.6" * 4809754,"MoO4H4-(Malate)2-2",-85.6,25.36,0,0,-2,0,0,0,3 * 1,480,2,975,4,330 * 427.9976,"Cruy96","Cruy96" * 4809753,"MoO4H3-(Malate)2-3",0,20.74,0,0,-3,0,0,0,3 * 1,480,2,975,3,330 * 426.9896,"Cruy96","Cruy96" * 4809752,"MoO4H3-Malate-",0,16.89,0,0,-1,0,0,0,3 * 1,480,1,975,3,330 * 294.9756,"Cruy96","Cruy96" * 4809751,"MoO4H2-Malate-2",-55.5,13.91,0,0,-2,0,0,0,3 * 1,480,1,975,2,330 * 293.9676,"Cruy96","Cruy96" * 4809750,"MoO4H-Malate-3",-57,7.47,0,0,-3,0,0,0,3 * 1,480,1,975,1,330 * 292.9596,"Cruy96","Cruy96" * 6009751,"Pb-(Malate)2-2",0,4.52,0,0,-2,0,0,0,2 * 1,600,2,975 * 471.2179,"NIST 46.6","n.a." * 6009750,"Pb-Malate (aq)",0,3.37,0,0,0,0,0,0,2 * 1,600,1,975 * 339.2039,"NIST 46.6","n.a." * 1609751,"CdH-Malate+",0,6.87,0,0,1,0,0,0,3 * 1,160,1,975,1,330 * 245.4214,"NIST 46.6","n.a." * 1609750,"Cd-Malate (aq)",0,3.23,0,0,0,0,0,0,2 * 1,160,1,975 * 244.4134,"NIST 46.6","n.a." * 9509751,"ZnH-Malate+",0,7.1,0,0,1,0,0,0,3 * 1,950,1,975,1,330 * 198.3919,"NIST 46.6","n.a." * 9509750,"Zn-Malate (aq)",0,3.32,0,0,0,0,0,0,2 * 1,950,1,975 * 197.3839,"NIST 46.6","n.a." * 5709750,"Pd-Malate (aq)",-4,4.57,0,0,0,0,0,0,2 * 1,570,1,975 * 238.434,"NIST 46.6","NIST 46.6" * 2819750,"Fe-Malate+",0,8.39,0,0,1,0,0,0,2 * 1,281,1,975 * 187.861,"NIST 46.6","n.a." * 2319752,"Cu2-(Malate)2 (aq)",0,10.13,0,0,0,0,0,0,2 * 2,231,2,975 * 391.12,"NIST 46.6","n.a." * 2319751,"CuH-Malate+",38.2,7.54,0,0,1,0,0,0,3 * 1,231,1,975,1,330 * 196.568,"NIST 46.6","NIST 46.6" * 2319750,"Cu-Malate (aq)",46,4.53,0,0,0,0,0,0,2 * 1,231,1,975 * 195.56,"NIST 46.6","NIST 46.6" * 5409751,"NiH-Malate+",0,7.36,0,0,1,0,0,0,3 * 1,540,1,975,1,330 * 191.732,"NIST 46.6","n.a." * 5409750,"Ni-Malate (aq)",0,3.9,0,0,0,0,0,0,2 * 1,540,1,975 * 190.724,"NIST 46.6","n.a." * 2009751,"CoH-Malate+",0,7.17,0,0,1,0,0,0,3 * 1,200,1,975,1,330 * 191.9552,"NIST 46.6","n.a." * 2009750,"Co-Malate (aq)",0,3.73,0,0,0,0,0,0,2 * 1,200,1,975 * 190.9472,"NIST 46.6","n.a." * 2809750,"Fe-Malate (aq)",0,3.47,0,0,0,0,0,0,2 * 1,280,1,975 * 187.861,"NIST 46.6","n.a." * 4709750,"Mn-Malate (aq)",0,3.11,0,0,0,0,0,0,2 * 1,470,1,975 * 186.952,"NIST 46.6","n.a." * 4509751,"Lu-(Malate)2-",0,10.39,0,0,-1,0,0,0,2 * 1,450,2,975 * 438.995,"NIST 46.6","n.a." * 4509750,"Lu-Malate+",0,6.37,0,0,1,0,0,0,2 * 1,450,1,975 * 306.981,"NIST 46.6","n.a." * 8069751,"Yb-(Malate)2-",0,10.3,0,0,-1,0,0,0,2 * 1,806,2,975 * 437.068,"NIST 46.6","n.a." * 8069750,"Yb-Malate+",0,6.34,0,0,1,0,0,0,2 * 1,806,1,975 * 305.054,"NIST 46.6","n.a." * 8809751,"Tm-(Malate)2-",0,10.22,0,0,-1,0,0,0,2 * 1,880,2,975 * 432.962,"NIST 46.6","n.a." * 8809750,"Tm-Malate+",0,6.29,0,0,1,0,0,0,2 * 1,880,1,975 * 300.948,"NIST 46.6","n.a." * 2509752,"ErH-Malate+2",0,7.04,0,0,2,0,0,0,3 * 1,250,1,975,1,330 * 300.281,"NIST 46.6","n.a." * 2509751,"Er-(Malate)2-",0,10.07,0,0,-1,0,0,0,2 * 1,250,2,975 * 431.287,"NIST 46.6","n.a." * 2509750,"Er-Malate+",0,6.25,0,0,1,0,0,0,2 * 1,250,1,975 * 299.273,"NIST 46.6","n.a." * 3709751,"Ho-(Malate)2-",0,9.97,0,0,-1,0,0,0,2 * 1,370,2,975 * 428.958,"NIST 46.6","n.a." * 3709750,"Ho-Malate+",0,6.19,0,0,1,0,0,0,2 * 1,370,1,975 * 296.944,"NIST 46.6","n.a." * 2409751,"Dy-(Malate)2-",0,9.82,0,0,-1,0,0,0,2 * 1,240,2,975 * 426.528,"NIST 46.6","n.a." * 2409750,"Dy-Malate+",0,6.07,0,0,1,0,0,0,2 * 1,240,1,975 * 294.514,"NIST 46.6","n.a." * 8019751,"Tb-(Malate)2-",0,9.75,0,0,-1,0,0,0,2 * 1,801,2,975 * 422.953,"NIST 46.6","n.a." * 8019750,"Tb-Malate+",0,6.06,0,0,1,0,0,0,2 * 1,801,1,975 * 290.939,"NIST 46.6","n.a." * 3109751,"Gd-(Malate)2-",0,9.72,0,0,-1,0,0,0,2 * 1,310,2,975 * 421.278,"NIST 46.6","n.a." * 3109750,"Gd-Malate+",0,6.05,0,0,1,0,0,0,2 * 1,310,1,975 * 289.264,"NIST 46.6","n.a." * 2609751,"Eu-(Malate)2-",0,9.83,0,0,-1,0,0,0,2 * 1,260,2,975 * 415.992,"NIST 46.6","n.a." * 2609750,"Eu-Malate+",0,6.14,0,0,1,0,0,0,2 * 1,260,1,975 * 283.978,"NIST 46.6","n.a." * 7809751,"Sm-(Malate)2-",0,9.88,0,0,-1,0,0,0,2 * 1,780,2,975 * 414.388,"NIST 46.6","n.a." * 7809750,"Sm-Malate+",0,6.18,0,0,1,0,0,0,2 * 1,780,1,975 * 282.374,"NIST 46.6","n.a." * 5209751,"Nd-(Malate)2-",0,9.66,0,0,-1,0,0,0,2 * 1,520,2,975 * 408.268,"NIST 46.6","n.a." * 5209750,"Nd-Malate+",0,6.06,0,0,1,0,0,0,2 * 1,520,1,975 * 276.254,"NIST 46.6","n.a." * 5859751,"Pr-(Malate)2-",0,9.46,0,0,-1,0,0,0,2 * 1,585,2,975 * 404.936,"NIST 46.6","n.a." * 5859750,"Pr-Malate+",0,5.94,0,0,1,0,0,0,2 * 1,585,1,975 * 272.922,"NIST 46.6","n.a." * 8059751,"Y-(Malate)2-",0,9.9,0,0,-1,0,0,0,2 * 1,805,2,975 * 352.938,"NIST 46.6","n.a." * 8059750,"Y-Malate+",0,6.2,0,0,1,0,0,0,2 * 1,805,1,975 * 220.924,"NIST 46.6","n.a." * 4209752,"LaH-Malate+2",0,7.84,0,0,2,0,0,0,3 * 1,420,1,975,1,330 * 271.928,"NIST 46.6","n.a." * 4209751,"La-(Malate)2-",0,8.88,0,0,-1,0,0,0,2 * 1,420,2,975 * 402.934,"NIST 46.6","n.a." * 4209750,"La-Malate+",0,5.66,0,0,1,0,0,0,2 * 1,420,1,975 * 270.92,"NIST 46.6","n.a." * 1009751,"BaH-Malate+",0,6.2,0,0,1,0,0,0,3 * 1,100,1,975,1,330 * 270.362,"NIST 46.6","n.a." * 1009750,"Ba-Malate (aq)",0,2.2,0,0,0,0,0,0,2 * 1,100,1,975 * 269.354,"NIST 46.6","n.a." * 8009751,"SrH-Malate+",0,6.33,0,0,1,0,0,0,3 * 1,800,1,975,1,330 * 220.642,"NIST 46.6","n.a." * 8009750,"Sr-Malate (aq)",-.4,2.39,0,0,0,0,0,0,2 * 1,800,1,975 * 219.634,"NIST 46.6","NIST 46.6" * 1509751,"CaH-Malate+",-7,6.49,0,0,1,0,0,0,3 * 1,150,1,975,1,330 * 173.102,"NIST 46.6","NIST 46.6" * 1509750,"Ca-Malate (aq)",-1,2.72,0,0,0,0,0,0,2 * 1,150,1,975 * 172.094,"NIST 46.6","NIST 46.6" * 4609751,"MgH-Malate+",0,6.43,0,0,1,0,0,0,3 * 1,460,1,975,1,330 * 157.334,"NIST 46.6","n.a." * 4609750,"Mg-Malate (aq)",4.1,2.58,0,0,0,0,0,0,2 * 1,460,1,975 * 156.326,"NIST 46.6","NIST 46.6" * 1109752,"Be2-(Malate)2 (aq)",0,10.21,0,0,0,0,0,0,2 * 2,110,2,975 * 282.0524,"NIST 46.6","n.a." * 1109751,"BeH-Malate+",0,6.72,0,0,1,0,0,0,3 * 1,110,1,975,1,330 * 142.0342,"NIST 46.6","n.a." * 1109750,"Be-Malate (aq)",0,3.62,0,0,0,0,0,0,2 * 1,110,1,975 * 141.0262,"NIST 46.6","n.a." * 4909750,"NH4-Malate-",0,.9,0,0,-1,0,0,0,2 * 1,490,1,975 * 150.0526,"NIST 46.6","n.a." * 2159750,"Cs-Malate-",0,.28,0,0,-1,0,0,0,2 * 1,215,1,975 * 264.919,"NIST 46.6","n.a." * 6809750,"Rb-Malate-",0,.47,0,0,-1,0,0,0,2 * 1,680,1,975 * 217.4839,"NIST 46.6","n.a." * 4109750,"K-Malate-",4.1,.4,0,0,-1,0,0,0,2 * 1,410,1,975 * 171.116,"NIST 46.6","NIST 46.6" * 5009750,"Na-Malate-",-.4,.7,0,0,-1,0,0,0,2 * 1,500,1,975 * 155.0038,"NIST 46.6","NIST 46.6" * 4409750,"Li-Malate-",0,.81,0,0,-1,0,0,0,2 * 1,440,1,975 * 138.953,"NIST 46.6","n.a." * 9753301,"H2-Malate (aq)",-1.6,8.556,0,0,0,0,0,0,2 * 1,975,2,330 * 134.03,"NIST 46.6","NIST 46.6" * 9753300,"H-Malate-",1.2,5.097,0,0,-1,0,0,0,2 * 1,975,1,330 * 133.022,"NIST 46.6","NIST 46.6" * 6009766,"PbH-(Malonate)3-3",0,9.85,0,0,-3,0,0,0,3 * 1,600,3,976,1,330 * 514.1979,"NIST 46.6","n.a." * 6009765,"PbH-(Malonate)2-",0,10.09,0,0,-1,0,0,0,3 * 1,600,2,976,1,330 * 412.1979,"NIST 46.6","n.a." * 6009764,"PbH2-(Malonate)2 (aq)",0,13.51,0,0,0,0,0,0,3 * 1,600,2,976,2,330 * 413.2059,"NIST 46.6","n.a." * 6009763,"PbH-Malonate+",0,7.24,0,0,1,0,0,0,3 * 1,600,1,976,1,330 * 310.1979,"NIST 46.6","n.a." * 6009762,"Pb-(Malonate)3-4",0,4.16,0,0,-4,0,0,0,2 * 1,600,3,976 * 513.1899,"NIST 46.6","n.a." * 6009761,"Pb-(Malonate)2-2",0,5.6,0,0,-2,0,0,0,2 * 1,600,2,976 * 411.1899,"NIST 46.6","n.a." * 6009760,"Pb-Malonate (aq)",20,3.95,0,0,0,0,0,0,2 * 1,600,1,976 * 309.1899,"NIST 46.6","NIST 46.6" * 3909761,"In-(Malonate)2-",0,11.85,0,0,-1,0,0,0,2 * 1,390,2,976 * 318.818,"NIST 46.6","n.a." * 3909760,"In-Malonate+",0,7.26,0,0,1,0,0,0,2 * 1,390,1,976 * 216.818,"NIST 46.6","n.a." * 309762,"Al-(Malonate)3-3",0,14.89,0,0,-3,0,0,0,2 * 1,30,3,976 * 332.9815,"NIST 46.6","n.a." * 309761,"Al-(Malonate)2-",33,12.62,0,0,-1,0,0,0,2 * 1,30,2,976 * 230.9815,"NIST 46.6","NIST 46.6" * 309760,"Al-Malonate+",20,7.49,0,0,1,0,0,0,2 * 1,30,1,976 * 128.9815,"NIST 46.6","NIST 46.6" * 1609761,"CdH-Malonate+",0,7.18,0,0,1,0,0,0,3 * 1,160,1,976,1,330 * 215.4074,"NIST 46.6","n.a." * 1609760,"Cd-Malonate (aq)",8,3.45,0,0,0,0,0,0,2 * 1,160,1,976 * 214.3994,"NIST 46.6","NIST 46.6" * 9509762,"ZnH-Malonate+",0,7.04,0,0,1,0,0,0,3 * 1,950,1,976,1,330 * 168.3779,"NIST 46.6","n.a." * 9509761,"Zn-(Malonate)2-2",0,5.4,0,0,-2,0,0,0,2 * 1,950,2,976 * 269.3699,"NIST 46.6","n.a." * 9509760,"Zn-Malonate (aq)",12,3.84,0,0,0,0,0,0,2 * 1,950,1,976 * 167.3699,"NIST 46.6","NIST 46.6" * 5709760,"Pd-Malonate (aq)",-8,4.32,0,0,0,0,0,0,2 * 1,570,1,976 * 208.42,"NIST 46.6","NIST 46.6" * 9039761,"VO2-(Malonate)2-3",0,22.42,0,0,-3,0,0,0,4 * 1,903,2,976,3,330,-2,2 * 286.939,"NIST 46.7","n.a." * 9039760,"VO2-Malonate-",0,20.86,0,0,-1,0,0,0,4 * 1,903,1,976,3,330,-2,2 * 184.939,"NIST 46.7","n.a." * 9029762,"VOH-Malonate+",0,7.31,0,0,1,0,0,0,3 * 1,902,1,976,1,330 * 169.947,"NIST 46.6","n.a." * 9029761,"VO-(Malonate)2-2",0,10.3,0,0,-2,0,0,0,2 * 1,902,2,976 * 270.939,"NIST 46.6","n.a." * 9029760,"VO-Malonate (aq)",0,6.51,0,0,0,0,0,0,2 * 1,902,1,976 * 168.939,"NIST 46.6","n.a." * 2319762,"CuH-Malonate+",4.53,8.21,0,0,1,0,0,0,3 * 1,231,1,976,1,330 * 166.554,"NIST 46.6","NIST 46.6" * 2319761,"Cu-(Malonate)2-2",5,8.66,0,0,-2,0,0,0,2 * 1,231,2,976 * 267.546,"NIST 46.6","NIST 46.6" * 2319760,"Cu-Malonate (aq)",12,5.8,0,0,0,0,0,0,2 * 1,231,1,976 * 165.546,"NIST 46.6","NIST 46.6" * 5409762,"NiH-Malonate+",0,7.17,0,0,1,0,0,0,3 * 1,540,1,976,1,330 * 161.718,"NIST 46.6","n.a." * 5409761,"Ni-(Malonate)2-2",0,5.8,0,0,-2,0,0,0,2 * 1,540,2,976 * 262.71,"NIST 46.6","n.a." * 5409760,"Ni-Malonate (aq)",7.9,4.1,0,0,0,0,0,0,2 * 1,540,1,976 * 160.71,"NIST 46.6","NIST 46.6" * 2009762,"CoH-Malonate+",0,6.95,0,0,1,0,0,0,3 * 1,200,1,976,1,330 * 161.9412,"NIST 46.6","n.a." * 2009761,"Co-(Malonate)2-2",0,5.1,0,0,-2,0,0,0,2 * 1,200,2,976 * 262.9332,"NIST 46.6","n.a." * 2009760,"Co-Malonate (aq)",11,3.75,0,0,0,0,0,0,2 * 1,200,1,976 * 160.9332,"NIST 46.6","NIST 46.6" * 2819762,"Fe-(Malonate)3-3",7.1,18.55,0,0,-3,0,0,0,2 * 1,281,3,976 * 361.847,"NIST 46.6","NIST 46.6" * 2819761,"Fe-(Malonate)2-",14,15.72,0,0,-1,0,0,0,2 * 1,281,2,976 * 259.847,"NIST 46.6","NIST 46.6" * 2819760,"Fe-Malonate+",10,9.41,0,0,1,0,0,0,2 * 1,281,1,976 * 157.847,"NIST 46.6","NIST 46.6" * 2809760,"Fe-Malonate (aq)",0,3.12,0,0,0,0,0,0,2 * 1,280,1,976 * 157.847,"NIST 46.6","n.a." * 4709760,"Mn-Malonate (aq)",15,3.28,0,0,0,0,0,0,2 * 1,470,1,976 * 156.938,"NIST 46.6","NIST 46.6" * 2109762,"CrH-Malonate+",0,7.57,0,0,1,0,0,0,3 * 1,210,1,976,1,330 * 155.004,"NIST 46.6","n.a." * 2109761,"Cr-(Malonate)2-2",0,7.99,0,0,-2,0,0,0,2 * 1,210,2,976 * 255.996,"NIST 46.6","n.a." * 2109760,"Cr-Malonate (aq)",0,4.79,0,0,0,0,0,0,2 * 1,210,1,976 * 153.996,"NIST 46.6","n.a." * 8939761,"UO2-(Malonate)2-2",11,10.39,0,0,-2,0,0,0,2 * 1,893,2,976 * 474.0278,"NIST 46.6","NIST 46.6" * 8939760,"UO2-Malonate (aq)",8.7,6.56,0,0,0,0,0,0,2 * 1,893,1,976 * 372.0278,"NIST 46.6","NIST 46.6" * 5509760,"NpO2-Malonate-",0,3.16,0,0,-1,0,0,0,2 * 1,550,1,976 * 370.99,"NIST 46.6","n.a." * 8029762,"Th-(Malonate)3-2",25,18.75,0,0,-2,0,0,0,2 * 1,802,3,976 * 538.04,"NIST 46.6","NIST 46.6" * 8029761,"Th-(Malonate)2 (aq)",20,15.34,0,0,0,0,0,0,2 * 1,802,2,976 * 436.04,"NIST 46.6","NIST 46.6" * 8029760,"Th-Malonate+2",11,9.1,0,0,2,0,0,0,2 * 1,802,1,976 * 334.04,"NIST 46.6","NIST 46.6" * 4509764,"LuH-(Malonate)2 (aq)",24.2,12.24,0,0,0,0,0,0,3 * 1,450,2,976,1,330 * 379.975,"NIST 46.6","NIST 46.6" * 4509763,"LuH-Malonate+2",10.73,7.57,0,0,2,0,0,0,3 * 1,450,1,976,1,330 * 277.975,"NIST 46.6","NIST 46.6" * 4509762,"Lu-(Malonate)3-3",35,9.11,0,0,-3,0,0,0,2 * 1,450,3,976 * 480.967,"NIST 46.6","NIST 46.6" * 4509761,"Lu-(Malonate)2-",25,8.85,0,0,-1,0,0,0,2 * 1,450,2,976 * 378.967,"NIST 46.6","NIST 46.6" * 4509760,"Lu-Malonate+",14,5.74,0,0,1,0,0,0,2 * 1,450,1,976 * 276.967,"NIST 46.6","NIST 46.6" * 8069764,"YbH-(Malonate)2 (aq)",22,12.23,0,0,0,0,0,0,3 * 1,806,2,976,1,330 * 378.048,"NIST 46.6","NIST 46.6" * 8069763,"YbH-Malonate+2",10.73,7.45,0,0,2,0,0,0,3 * 1,806,1,976,1,330 * 276.048,"NIST 46.6","NIST 46.6" * 8069762,"Yb-(Malonate)3-3",33,9.01,0,0,-3,0,0,0,2 * 1,806,3,976 * 479.04,"NIST 46.6","NIST 46.6" * 8069761,"Yb-(Malonate)2-",24,8.6,0,0,-1,0,0,0,2 * 1,806,2,976 * 377.04,"NIST 46.6","NIST 46.6" * 8069760,"Yb-Malonate+",14,5.7,0,0,1,0,0,0,2 * 1,806,1,976 * 275.04,"NIST 46.6","NIST 46.6" * 8809764,"TmH-(Malonate)2 (aq)",17.2,12.59,0,0,0,0,0,0,3 * 1,880,2,976,1,330 * 373.942,"NIST 46.6","NIST 46.6" * 8809763,"TmH-Malonate+2",7.93,7.52,0,0,2,0,0,0,3 * 1,880,1,976,1,330 * 271.942,"NIST 46.6","NIST 46.6" * 8809762,"Tm-(Malonate)3-3",33,8.85,0,0,-3,0,0,0,2 * 1,880,3,976 * 474.934,"NIST 46.6","NIST 46.6" * 8809761,"Tm-(Malonate)2-",23,8.73,0,0,-1,0,0,0,2 * 1,880,2,976 * 372.934,"NIST 46.6","NIST 46.6" * 8809760,"Tm-Malonate+",14,5.71,0,0,1,0,0,0,2 * 1,880,1,976 * 270.934,"NIST 46.6","NIST 46.6" * 2509764,"ErH-(Malonate)2 (aq)",20,12.6,0,0,0,0,0,0,3 * 1,250,2,976,1,330 * 372.267,"NIST 46.6","NIST 46.6" * 2509763,"ErH-Malonate+2",9.03,7.71,0,0,2,0,0,0,3 * 1,250,1,976,1,330 * 270.267,"NIST 46.6","NIST 46.6" * 2509762,"Er-(Malonate)3-3",29,8.84,0,0,-3,0,0,0,2 * 1,250,3,976 * 473.259,"NIST 46.6","NIST 46.6" * 2509761,"Er-(Malonate)2-",22,8.76,0,0,-1,0,0,0,2 * 1,250,2,976 * 371.259,"NIST 46.6","NIST 46.6" * 2509760,"Er-Malonate+",13,5.71,0,0,1,0,0,0,2 * 1,250,1,976 * 269.259,"NIST 46.6","NIST 46.6" * 3709763,"HoH-(Malonate)2 (aq)",17.9,12.57,0,0,0,0,0,0,3 * 1,370,2,976,1,330 * 369.938,"NIST 46.6","NIST 46.6" * 3702600,"HoH-Malonate+2",9.53,7.55,0,0,2,0,0,0,3 * 1,370,1,976,1,330 * 267.938,"NIST 46.6","NIST 46.6" * 3709762,"Ho-(Malonate)3-3",30,8.93,0,0,-3,0,0,0,2 * 1,370,3,976 * 470.93,"NIST 46.6","NIST 46.6" * 3709761,"Ho-(Malonate)2-",22,8.69,0,0,-1,0,0,0,2 * 1,370,2,976 * 368.93,"NIST 46.6","NIST 46.6" * 3709760,"Ho-Malonate+",13,5.68,0,0,1,0,0,0,2 * 1,370,1,976 * 266.93,"NIST 46.6","NIST 46.6" * 8019763,"TbH-(Malonate)2 (aq)",17,12.88,0,0,0,0,0,0,3 * 1,801,2,976,1,330 * 363.933,"NIST 46.6","NIST 46.6" * 8019762,"TbH-Malonate+2",10.33,7.61,0,0,2,0,0,0,3 * 1,801,1,976,1,330 * 261.933,"NIST 46.6","NIST 46.6" * 8019761,"Tb-(Malonate)2-",22,8.87,0,0,-1,0,0,0,2 * 1,801,2,976 * 362.925,"NIST 46.6","NIST 46.6" * 8019760,"Tb-Malonate+",12,5.73,0,0,1,0,0,0,2 * 1,801,1,976 * 260.925,"NIST 46.6","NIST 46.6" * 3109763,"GdH-(Malonate)2 (aq)",18,12.59,0,0,0,0,0,0,3 * 1,310,2,976,1,330 * 362.258,"NIST 46.6","NIST 46.6" * 3109762,"GdH-Malonate+2",9.53,7.76,0,0,2,0,0,0,3 * 1,310,1,976,1,330 * 260.258,"NIST 46.6","NIST 46.6" * 3109761,"Gd-(Malonate)2-",20,8.69,0,0,-1,0,0,0,2 * 1,310,2,976 * 361.25,"NIST 46.6","NIST 46.6" * 3109760,"Gd-Malonate+",12,5.61,0,0,1,0,0,0,2 * 1,310,1,976 * 259.25,"NIST 46.6","NIST 46.6" * 2609763,"EuH-(Malonate)2 (aq)",17,12.77,0,0,0,0,0,0,3 * 1,260,2,976,1,330 * 356.972,"NIST 46.6","NIST 46.6" * 2609762,"EuH-Malonate+2",7.93,8.03,0,0,2,0,0,0,3 * 1,260,1,976,1,330 * 254.972,"NIST 46.6","NIST 46.6" * 2609761,"Eu-(Malonate)2-",20,8.71,0,0,-1,0,0,0,2 * 1,260,2,976 * 355.964,"NIST 46.6","NIST 46.6" * 2609760,"Eu-Malonate+",12,5.58,0,0,1,0,0,0,2 * 1,260,1,976 * 253.964,"NIST 46.6","NIST 46.6" * 7809763,"SmH-(Malonate)2 (aq)",19,12.66,0,0,0,0,0,0,3 * 1,780,2,976,1,330 * 355.368,"NIST 46.6","NIST 46.6" * 7809762,"SmH-Malonate+2",7.93,7.84,0,0,2,0,0,0,3 * 1,780,1,976,1,330 * 253.368,"NIST 46.6","NIST 46.6" * 7809761,"Sm-(Malonate)2-",21,8.56,0,0,-1,0,0,0,2 * 1,780,2,976 * 354.36,"NIST 46.6","NIST 46.6" * 7809760,"Sm-Malonate+",12,5.48,0,0,1,0,0,0,2 * 1,780,1,976 * 252.36,"NIST 46.6","NIST 46.6" * 5209763,"NdH-(Malonate)2 (aq)",19,12.03,0,0,0,0,0,0,3 * 1,520,2,976,1,330 * 349.248,"NIST 46.6","NIST 46.6" * 5209762,"NdH-Malonate+2",6.93,7.73,0,0,2,0,0,0,3 * 1,520,1,976,1,330 * 247.248,"NIST 46.6","NIST 46.6" * 5209761,"Nd-(Malonate)2-",20,8.13,0,0,-1,0,0,0,2 * 1,520,2,976 * 348.24,"NIST 46.6","NIST 46.6" * 5209760,"Nd-Malonate+",16,5.24,0,0,1,0,0,0,2 * 1,520,1,976 * 246.24,"NIST 46.6","NIST 46.6" * 5857500,"PrH-(Malonate)2 (aq)",19,12.02,0,0,0,0,0,0,3 * 1,585,2,976,1,330 * 345.916,"NIST 46.6","NIST 46.6" * 5859762,"PrH-Malonate+2",7.93,7.73,0,0,2,0,0,0,3 * 1,585,1,976,1,330 * 243.916,"NIST 46.6","NIST 46.6" * 5859761,"Pr-(Malonate)2-",21,8.02,0,0,-1,0,0,0,2 * 1,585,2,976 * 344.908,"NIST 46.6","NIST 46.6" * 5859760,"Pr-Malonate+",15,5.2,0,0,1,0,0,0,2 * 1,585,1,976 * 242.908,"NIST 46.6","NIST 46.6" * 4209763,"LaH-(Malonate)2 (aq)",18,12.2,0,0,0,0,0,0,3 * 1,420,2,976,1,330 * 343.914,"NIST 46.6","NIST 46.6" * 4209762,"LaH-Malonate+2",7.93,8.13,0,0,2,0,0,0,3 * 1,420,1,976,1,330 * 241.914,"NIST 46.6","NIST 46.6" * 4209761,"La-(Malonate)2-",20,7.8,0,0,-1,0,0,0,2 * 1,420,2,976 * 342.906,"NIST 46.6","NIST 46.6" * 4209760,"La-Malonate+",15,4.94,0,0,1,0,0,0,2 * 1,420,1,976 * 240.906,"NIST 46.6","NIST 46.6" * 8059761,"Y-(Malonate)2-",0,8.76,0,0,-1,0,0,0,2 * 1,805,2,976 * 292.91,"NIST 46.6","n.a." * 8059760,"Y-Malonate+",0,5.69,0,0,1,0,0,0,2 * 1,805,1,976 * 190.91,"NIST 46.6","n.a." * 7509762,"Sc-(Malonate)3-3",32,14.3,0,0,-3,0,0,0,2 * 1,750,3,976 * 350.956,"NIST 46.6","NIST 46.6" * 7509761,"Sc-(Malonate)2-",26,11.76,0,0,-1,0,0,0,2 * 1,750,2,976 * 248.956,"NIST 46.6","NIST 46.6" * 7509760,"Sc-Malonate+",14,7.1,0,0,1,0,0,0,2 * 1,750,1,976 * 146.956,"NIST 46.6","NIST 46.6" * 2409764,"DyH-(Malonate)2 (aq)",17.9,10.75,0,0,0,0,0,0,3 * 1,240,2,976,1,330 * 367.508,"NIST 46.6","NIST 46.6" * 2409763,"DyH-Malonate+2",11.13,7.55,0,0,2,0,0,0,3 * 1,240,1,976,1,330 * 265.508,"NIST 46.6","NIST 46.6" * 2409762,"Dy-(Malonate)3-3",20,7.6,0,0,-3,0,0,0,2 * 1,240,3,976 * 468.5,"NIST 46.6","NIST 46.6" * 2409761,"Dy-(Malonate)2-",22,8.89,0,0,-1,0,0,0,2 * 1,240,2,976 * 366.5,"NIST 46.6","NIST 46.6" * 2409760,"Dy-Malonate+",12,5.76,0,0,1,0,0,0,2 * 1,240,1,976 * 264.5,"NIST 46.6","NIST 46.6" * 1009760,"Ba-Malonate (aq)",0,2.07,0,0,0,0,0,0,2 * 1,100,1,976 * 239.34,"NIST 46.6","n.a." * 8009761,"SrH-Malonate+",0,6.54,0,0,1,0,0,0,3 * 1,800,1,976,1,330 * 190.628,"NIST 46.6","n.a." * 8009760,"Sr-Malonate (aq)",0,2.21,0,0,0,0,0,0,2 * 1,800,1,976 * 189.62,"NIST 46.6","n.a." * 1509761,"CaH-Malonate+",4.93,6.55,0,0,1,0,0,0,3 * 1,150,1,976,1,330 * 143.088,"NIST 46.6","NIST 46.6" * 1509760,"Ca-Malonate (aq)",9.6,2.5,0,0,0,0,0,0,2 * 1,150,1,976 * 142.08,"NIST 46.6","NIST 46.6" * 4609761,"MgH-Malonate+",0,7.03,0,0,1,0,0,0,3 * 1,460,1,976,1,330 * 127.32,"NIST 46.6","n.a." * 4609760,"Mg-Malonate (aq)",13,2.85,0,0,0,0,0,0,2 * 1,460,1,976 * 126.312,"NIST 46.6","NIST 46.6" * 1109761,"Be-(Malonate)2-2",15,10.16,0,0,-2,0,0,0,2 * 1,110,2,976 * 213.0122,"NIST 46.6","NIST 46.6" * 1109760,"Be-Malonate (aq)",10,6.65,0,0,0,0,0,0,2 * 1,110,1,976 * 111.0122,"NIST 46.6","NIST 46.6" * 4909760,"NH4-Malonate-",0,1.1,0,0,-1,0,0,0,2 * 1,490,1,976 * 120.0386,"NIST 46.6","n.a." * 2159760,"Cs-Malonate-",0,.7,0,0,-1,0,0,0,2 * 1,215,1,976 * 234.905,"NIST 46.6","n.a." * 4109760,"K-Malonate-",4,.9,0,0,-1,0,0,0,2 * 1,410,1,976 * 141.102,"NIST 46.6","NIST 46.6" * 5009760,"Na-Malonate-",4,.8,0,0,-1,0,0,0,2 * 1,500,1,976 * 124.9898,"NIST 46.6","NIST 46.6" * 4409760,"Li-Malonate-",8,1.1,0,0,-1,0,0,0,2 * 1,440,1,976 * 108.939,"NIST 46.6","NIST 46.6" * 9763301,"H2-Malonate (aq)",4.77,8.543,0,0,0,0,0,0,2 * 1,976,2,330 * 104.016,"NIST 46.6","NIST 46.6" * 9763300,"H-Malonate-",4.93,5.696,0,0,-1,0,0,0,2 * 1,976,1,330 * 103.008,"NIST 46.6","NIST 46.6" * 309773,"Al(OH)2-Succinate-",0,-4.48,0,0,-1,0,0,0,4 * 1,30,1,977,-2,330,2,2 * 177.0121,"NIST 46.6","n.a." * 309772,"AlOH-Succinate (aq)",0,.77,0,0,0,0,0,0,4 * 1,30,1,977,-1,330,1,2 * 160.0048,"NIST 46.6","n.a." * 309771,"AlH-Succinate+2",0,8.08,0,0,2,0,0,0,3 * 1,30,1,977,1,330 * 144.0055,"NIST 46.6","n.a." * 309770,"Al-Succinate+",0,4.92,0,0,1,0,0,0,2 * 1,30,1,977 * 142.9975,"NIST 46.6","n.a." * 6009774,"PbH-(Succinate)2-",0,10.07,0,0,-1,0,0,0,3 * 1,600,2,977,1,330 * 440.2299,"NIST 46.6","n.a." * 6009773,"PbH2-(Succinate)2 (aq)",0,14.75,0,0,0,0,0,0,3 * 1,600,2,977,2,330 * 441.2379,"NIST 46.6","n.a." * 6009772,"PbH-Succinate+",0,7.09,0,0,1,0,0,0,3 * 1,600,1,977,1,330 * 324.2139,"NIST 46.6","n.a." * 6009771,"Pb-(Succinate)2-2",0,4.81,0,0,-2,0,0,0,2 * 1,600,2,977 * 439.2219,"NIST 46.6","n.a." * 6009770,"Pb-Succinate (aq)",0,3.97,0,0,0,0,0,0,2 * 1,600,1,977 * 323.2059,"NIST 46.6","n.a." * 1609773,"CdH-Succinate+",0,7.04,0,0,1,0,0,0,3 * 1,160,1,977,1,330 * 229.4234,"NIST 46.6","n.a." * 1609772,"Cd-(Succinate)3-4",0,3.38,0,0,-4,0,0,0,2 * 1,160,3,977 * 460.4474,"NIST 46.6","n.a." * 1609771,"Cd-(Succinate)2-2",0,3.5,0,0,-2,0,0,0,2 * 1,160,2,977 * 344.4314,"NIST 46.6","n.a." * 1609770,"Cd-Succinate (aq)",0,2.62,0,0,0,0,0,0,2 * 1,160,1,977 * 228.4154,"NIST 46.6","n.a." * 9509772,"ZnH-Succinate+",0,7.15,0,0,1,0,0,0,3 * 1,950,1,977,1,330 * 182.3939,"NIST 46.6","n.a." * 9509771,"Zn-(Succinate)2-2",0,2.82,0,0,-2,0,0,0,2 * 1,950,2,977 * 297.4019,"NIST 46.6","n.a." * 9509770,"Zn-Succinate (aq)",18,2.52,0,0,0,0,0,0,2 * 1,950,1,977 * 181.3859,"NIST 46.6","NIST 46.6" * 5709770,"Pd-Succinate (aq)",8,4.96,0,0,0,0,0,0,2 * 1,570,1,977 * 222.436,"NIST 46.6","NIST 46.6" * 2319771,"CuH-Succinate+",-.8,7.87,0,0,1,0,0,0,3 * 1,231,1,977,1,330 * 180.57,"NIST 46.6","NIST 46.6" * 2319770,"Cu-Succinate (aq)",19,3.4,0,0,0,0,0,0,2 * 1,231,1,977 * 179.562,"NIST 46.6","NIST 46.6" * 5409771,"NiH-Succinate+",0,6.94,0,0,1,0,0,0,3 * 1,540,1,977,1,330 * 175.734,"NIST 46.6","n.a." * 5409770,"Ni-Succinate (aq)",10,2.5,0,0,0,0,0,0,2 * 1,540,1,977 * 174.726,"NIST 46.6","NIST 46.6" * 2009771,"CoH-Succinate+",0,7.06,0,0,1,0,0,0,3 * 1,200,1,977,1,330 * 175.9572,"NIST 46.6","n.a." * 2009770,"Co-Succinate (aq)",13,2.47,0,0,0,0,0,0,2 * 1,200,1,977 * 174.9492,"NIST 46.6","NIST 46.6" * 2819770,"Fe-Succinate+",0,8.01,0,0,1,0,0,0,2 * 1,281,1,977 * 171.863,"NIST 46.6","n.a." * 4709771,"MnH-Succinate+",0,6.84,0,0,1,0,0,0,3 * 1,470,1,977,1,330 * 171.962,"NIST 46.6","n.a." * 4709770,"Mn-Succinate (aq)",12,2.29,0,0,0,0,0,0,2 * 1,470,1,977 * 170.954,"NIST 46.6","NIST 46.6" * 8939772,"UO2H-(Succinate)2-",11.98,12.76,0,0,-1,0,0,0,3 * 1,893,2,977,1,330 * 503.0678,"NIST 46.6","NIST 46.6" * 8939771,"UO2H-Succinate+",7.18,8.31,0,0,1,0,0,0,3 * 1,893,1,977,1,330 * 387.0518,"NIST 46.6","NIST 46.6" * 8939770,"UO2-Succinate (aq)",21,4.41,0,0,0,0,0,0,2 * 1,893,1,977 * 386.0438,"NIST 46.6","NIST 46.6" * 5509770,"NpO2-Succinate-",0,2.13,0,0,-1,0,0,0,2 * 1,550,1,977 * 385.006,"NIST 46.6","n.a." * 8029772,"ThH-(Succinate)2+",21.4,16.62,0,0,1,0,0,0,3 * 1,802,2,977,1,330 * 465.08,"NIST 46.6","NIST 46.6" * 8029771,"ThH-Succinate+3",5.5,10.06,0,0,3,0,0,0,3 * 1,802,1,977,1,330 * 349.064,"NIST 46.6","NIST 46.6" * 8029770,"Th-Succinate+2",18,8.07,0,0,2,0,0,0,2 * 1,802,1,977 * 348.056,"NIST 46.6","NIST 46.6" * 4509772,"LuH2-(Succinate)2+",0,15.45,0,0,1,0,0,0,3 * 1,450,2,977,2,330 * 409.015,"NIST 46.6","n.a." * 4509771,"LuH-Succinate+2",0,8.04,0,0,2,0,0,0,3 * 1,450,1,977,1,330 * 291.991,"NIST 46.6","n.a." * 4509770,"Lu-Succinate+",17,4.6,0,0,1,0,0,0,2 * 1,450,1,977 * 290.983,"NIST 46.6","NIST 46.6" * 8069771,"YbH2-(Succinate)2+",0,15.25,0,0,1,0,0,0,3 * 1,806,2,977,2,330 * 407.088,"NIST 46.6","n.a." * 8069770,"YbH-Succinate+2",0,8,0,0,2,0,0,0,3 * 1,806,1,977,1,330 * 290.064,"NIST 46.6","n.a." * 2509772,"ErH2-(Succinate)2+",0,15.35,0,0,1,0,0,0,3 * 1,250,2,977,2,330 * 401.307,"NIST 46.6","n.a." * 2509771,"ErH-Succinate+2",0,7.99,0,0,2,0,0,0,3 * 1,250,1,977,1,330 * 284.283,"NIST 46.6","n.a." * 2509770,"Er-Succinate+",17,4.61,0,0,1,0,0,0,2 * 1,250,1,977 * 283.275,"NIST 46.6","NIST 46.6" * 2409772,"DyH2-(Succinate)2+",0,15.45,0,0,1,0,0,0,3 * 1,240,2,977,2,330 * 396.548,"NIST 46.6","n.a." * 2409771,"DyH-Succinate+2",0,8,0,0,2,0,0,0,3 * 1,240,1,977,1,330 * 279.524,"NIST 46.6","n.a." * 2409770,"Dy-Succinate+",16,4.62,0,0,1,0,0,0,2 * 1,240,1,977 * 278.516,"NIST 46.6","NIST 46.6" * 8019771,"TbH2-(Succinate)2+",0,15.55,0,0,1,0,0,0,3 * 1,801,2,977,2,330 * 392.973,"NIST 46.6","n.a." * 8019770,"TbH-Succinate+2",0,7.94,0,0,2,0,0,0,3 * 1,801,1,977,1,330 * 275.949,"NIST 46.6","n.a." * 3109772,"GdH2-(Succinate)2+",0,15.45,0,0,1,0,0,0,3 * 1,310,2,977,2,330 * 391.298,"NIST 46.6","n.a." * 3109771,"GdH-Succinate+2",0,8.11,0,0,2,0,0,0,3 * 1,310,1,977,1,330 * 274.274,"NIST 46.6","n.a." * 3109770,"Gd-Succinate+",12,4.71,0,0,1,0,0,0,2 * 1,310,1,977 * 273.266,"NIST 46.6","NIST 46.6" * 2609771,"EuH2-(Succinate)2+",0,15.65,0,0,1,0,0,0,3 * 1,260,2,977,2,330 * 386.012,"NIST 46.6","n.a." * 2609770,"EuH-Succinate+2",0,8.27,0,0,2,0,0,0,3 * 1,260,1,977,1,330 * 268.988,"NIST 46.6","n.a." * 7809772,"SmH2-(Succinate)2+",0,15.75,0,0,1,0,0,0,3 * 1,780,2,977,2,330 * 384.408,"NIST 46.6","n.a." * 7809771,"SmH-Succinate+2",0,8.28,0,0,2,0,0,0,3 * 1,780,1,977,1,330 * 267.384,"NIST 46.6","n.a." * 7809770,"Sm-Succinate+",13,4.79,0,0,1,0,0,0,2 * 1,780,1,977 * 266.376,"NIST 46.6","NIST 46.6" * 5859772,"PrH2-(Succinate)2+",0,15.35,0,0,1,0,0,0,3 * 1,585,2,977,2,330 * 374.956,"NIST 46.6","n.a." * 5859771,"PrH-Succinate+2",0,8,0,0,2,0,0,0,3 * 1,585,1,977,1,330 * 257.932,"NIST 46.6","n.a." * 5859770,"Pr-Succinate+",12,4.65,0,0,1,0,0,0,2 * 1,585,1,977 * 256.924,"NIST 46.6","NIST 46.6" * 4209772,"LaH2-(Succinate)2+",0,14.95,0,0,1,0,0,0,3 * 1,420,2,977,2,330 * 372.954,"NIST 46.6","n.a." * 4209771,"LaH-Succinate+2",0,7.76,0,0,2,0,0,0,3 * 1,420,1,977,1,330 * 255.93,"NIST 46.6","n.a." * 4209770,"La-Succinate+",11,3.96,0,0,1,0,0,0,2 * 1,420,1,977 * 254.922,"NIST 46.6","NIST 46.6" * 1009771,"BaH-Succinate+",0,6.59,0,0,1,0,0,0,3 * 1,100,1,977,1,330 * 254.364,"NIST 46.6","n.a." * 1009770,"Ba-Succinate (aq)",0,2.12,0,0,0,0,0,0,2 * 1,100,1,977 * 253.356,"NIST 46.6","n.a." * 8009771,"SrH-Succinate+",0,6.62,0,0,1,0,0,0,3 * 1,800,1,977,1,330 * 204.644,"NIST 46.6","n.a." * 8009770,"Sr-Succinate (aq)",0,2.13,0,0,0,0,0,0,2 * 1,800,1,977 * 203.636,"NIST 46.6","n.a." * 1509771,"CaH-Succinate+",8.1,6.72,0,0,1,0,0,0,3 * 1,150,1,977,1,330 * 157.104,"NIST 46.6","NIST 46.6" * 1509770,"Ca-Succinate (aq)",7.5,2,0,0,0,0,0,0,2 * 1,150,1,977 * 156.096,"NIST 46.6","NIST 46.6" * 4609771,"MgH-Succinate+",0,6.65,0,0,1,0,0,0,3 * 1,460,1,977,1,330 * 141.336,"NIST 46.6","n.a." * 4609770,"Mg-Succinate (aq)",0,2.18,0,0,0,0,0,0,2 * 1,460,1,977 * 140.328,"NIST 46.6","n.a." * 1109774,"BeH2-(Succinate)2 (aq)",0,15.09,0,0,0,0,0,0,3 * 1,110,2,977,2,330 * 243.0602,"NIST 46.6","n.a." * 1109773,"BeH-Succinate+",0,7.48,0,0,1,0,0,0,3 * 1,110,1,977,1,330 * 126.0362,"NIST 46.6","n.a." * 1109772,"BeOH-Succinate-",0,-1.73,0,0,-1,0,0,0,4 * 1,110,1,977,-1,330,1,2 * 142.0355,"NIST 46.6","NIST 46.6" * 1109771,"Be-(Succinate)2-2",35,5.18,0,0,-2,0,0,0,2 * 1,110,2,977 * 241.0442,"NIST 46.6","NIST 46.6" * 1109770,"Be-Succinate (aq)",20,4.17,0,0,0,0,0,0,2 * 1,110,1,977 * 125.0282,"NIST 46.6","NIST 46.6" * 4909770,"NH4-Succinate-",0,1.1,0,0,-1,0,0,0,2 * 1,490,1,977 * 134.0546,"NIST 46.6","n.a." * 4109770,"K-Succinate-",4,.86,0,0,-1,0,0,0,2 * 1,410,1,977 * 155.118,"NIST 46.6","NIST 46.6" * 5009770,"Na-Succinate-",4,.85,0,0,-1,0,0,0,2 * 1,500,1,977 * 139.0058,"NIST 46.6","NIST 46.6" * 9773301,"H2-Succinate (aq)",-2.82,9.843,0,0,0,0,0,0,2 * 1,977,2,330 * 118.032,"NIST 46.6","NIST 46.6" * 9773300,"H-Succinate-",.08,5.636,0,0,-1,0,0,0,2 * 1,977,1,330 * 117.024,"NIST 46.6","NIST 46.6" * 6009783,"PbH2-(Glutarate)2 (aq)",0,14.6,0,0,0,0,0,0,3 * 1,600,2,978,2,330 * 469.2699,"NIST 46.6","n.a." * 6009782,"PbH-Glutarate+",0,7.83,0,0,1,0,0,0,3 * 1,600,1,978,1,330 * 338.2299,"NIST 46.6","n.a." * 6009781,"Pb-(Glutarate)2-2",0,4.59,0,0,-2,0,0,0,2 * 1,600,2,978 * 467.2539,"NIST 46.6","n.a." * 6009780,"Pb-Glutarate (aq)",0,3.44,0,0,0,0,0,0,2 * 1,600,1,978 * 337.2219,"NIST 46.6","n.a." * 1609780,"Cd-Glutarate (aq)",10,2.87,0,0,0,0,0,0,2 * 1,160,1,978 * 242.4314,"NIST 46.6","NIST 46.6" * 9509782,"ZnH-Glutarate+",0,6.75,0,0,1,0,0,0,3 * 1,950,1,978,1,330 * 196.4099,"NIST 46.6","n.a." * 9509781,"Zn-(Glutarate)2-2",0,2.56,0,0,-2,0,0,0,2 * 1,950,2,978 * 325.4339,"NIST 46.6","n.a." * 9509780,"Zn-Glutarate (aq)",13,2.45,0,0,0,0,0,0,2 * 1,950,1,978 * 195.4019,"NIST 46.6","NIST 46.6" * 2819780,"Fe-Glutarate+",0,8.4,0,0,1,0,0,0,2 * 1,281,1,978 * 185.879,"NIST 46.6","n.a." * 2319780,"Cu-Glutarate (aq)",10,3.24,0,0,0,0,0,0,2 * 1,231,1,978 * 193.578,"NIST 46.6","NIST 46.6" * 5409780,"Ni-Glutarate (aq)",5,2.47,0,0,0,0,0,0,2 * 1,540,1,978 * 188.742,"NIST 46.6","n.a." * 2009780,"Co-Glutarate (aq)",0,2.26,0,0,0,0,0,0,2 * 1,200,1,978 * 188.9652,"NIST 46.6","n.a." * 4709780,"Mn-Glutarate (aq)",0,2.07,0,0,0,0,0,0,2 * 1,470,1,978 * 184.97,"NIST 46.6","n.a." * 8939782,"UO2H2-(Glutarate)2 (aq)",0,15.13,0,0,0,0,0,0,3 * 1,893,2,978,2,330 * 532.1078,"NIST 46.6","n.a." * 8939781,"UO2H-Glutarate+",0,8.26,0,0,1,0,0,0,3 * 1,893,1,978,1,330 * 401.0678,"NIST 46.6","n.a." * 8939780,"UO2-Glutarate (aq)",0,4.66,0,0,0,0,0,0,2 * 1,893,1,978 * 400.0598,"NIST 46.6","n.a." * 5509781,"NpO2H-Glutarate (aq)",0,6.54,0,0,0,0,0,0,3 * 1,550,1,978,1,330 * 400.03,"NIST 46.6","n.a." * 5509780,"NpO2-Glutarate-",0,1.86,0,0,-1,0,0,0,2 * 1,550,1,978 * 399.022,"NIST 46.6","n.a." * 8029782,"ThH2-(Glutarate)2+2",0,18.41,0,0,2,0,0,0,3 * 1,802,2,978,2,330 * 494.12,"NIST 46.6","n.a." * 8029781,"ThH-Glutarate+3",0,9.72,0,0,3,0,0,0,3 * 1,802,1,978,1,330 * 363.08,"NIST 46.6","n.a." * 8029780,"Th-Glutarate+2",0,9.16,0,0,2,0,0,0,2 * 1,802,1,978 * 362.072,"NIST 46.6","n.a." * 4509780,"Lu-Glutarate+",18,4.45,0,0,1,0,0,0,2 * 1,450,1,978 * 304.999,"NIST 46.6","NIST 46.6" * 2509780,"Er-Glutarate+",17,4.38,0,0,1,0,0,0,2 * 1,250,1,978 * 297.291,"NIST 46.6","NIST 46.6" * 2409780,"Dy-Glutarate+",17,4.42,0,0,1,0,0,0,2 * 1,240,1,978 * 292.532,"NIST 46.6","NIST 46.6" * 3109780,"Gd-Glutarate+",16,4.48,0,0,1,0,0,0,2 * 1,310,1,978 * 287.282,"NIST 46.6","NIST 46.6" * 7809780,"Sm-Glutarate+",14,4.53,0,0,1,0,0,0,2 * 1,780,1,978 * 280.392,"NIST 46.6","NIST 46.6" * 5859780,"Pr-Glutarate+",15,4.46,0,0,1,0,0,0,2 * 1,585,1,978 * 270.94,"NIST 46.6","NIST 46.6" * 4209780,"La-Glutarate+",12,3.82,0,0,1,0,0,0,2 * 1,420,1,978 * 268.938,"NIST 46.6","NIST 46.6" * 8059780,"Y-Glutarate+",0,4.54,0,0,1,0,0,0,2 * 1,805,1,978 * 218.942,"NIST 46.6","n.a." * 7509780,"Sc-Glutarate+",0,6.11,0,0,1,0,0,0,2 * 1,750,1,978 * 174.988,"NIST 46.6","n.a." * 1009780,"Ba-Glutarate (aq)",0,2.04,0,0,0,0,0,0,2 * 1,100,1,978 * 267.372,"NIST 46.6","n.a." * 1509781,"CaH-Glutarate+",0,6.42,0,0,1,0,0,0,3 * 1,150,1,978,1,330 * 171.12,"NIST 46.6","n.a." * 1509780,"Ca-Glutarate (aq)",0,2.05,0,0,0,0,0,0,2 * 1,150,1,978 * 170.112,"NIST 46.6","n.a." * 4609781,"MgH-Glutarate+",0,6.43,0,0,1,0,0,0,3 * 1,460,1,978,1,330 * 155.352,"NIST 46.6","n.a." * 4609780,"Mg-Glutarate (aq)",0,2.07,0,0,0,0,0,0,2 * 1,460,1,978 * 154.344,"NIST 46.6","n.a." * 9783301,"H2-Glutarate (aq)",3,9.767,0,0,0,0,0,0,2 * 1,978,2,330 * 132.048,"NIST 46.6","NIST 46.6" * 9783300,"H-Glutarate-",2.5,5.422,0,0,-1,0,0,0,2 * 1,978,1,330 * 131.04,"NIST 46.6","NIST 46.6" * 1159791,"BiOH-HEDTA-",0,18.57,0,0,-1,0,0,0,4 * 1,115,1,979,-1,330,1,2 * 501.0993,"NIST 46.6","n.a." * 1159790,"Bi-HEDTA (aq)",0,24.24,0,0,0,0,0,0,2 * 1,115,1,979 * 484.092,"NIST 46.6","n.a." * 3909790,"In-HEDTA (aq)",0,22.14,0,0,0,0,0,0,2 * 1,390,1,979 * 389.93,"NIST 46.6","n.a." * 2909791,"GaOH-HEDTA-",0,15.44,0,0,-1,0,0,0,4 * 1,290,1,979,-1,330,1,2 * 361.8423,"NIST 46.6","n.a." * 2909790,"Ga-HEDTA (aq)",0,20.04,0,0,0,0,0,0,2 * 1,290,1,979 * 344.835,"NIST 46.6","n.a." * 309793,"Al(OH)2-HEDTA-2",0,1.61,0,0,-2,0,0,0,4 * 1,30,1,979,-2,330,2,2 * 336.1081,"NIST 46.6","n.a." * 309792,"AlOH-HEDTA-",0,11.23,0,0,-1,0,0,0,4 * 1,30,1,979,-1,330,1,2 * 319.1008,"NIST 46.6","n.a." * 309791,"AlH-HEDTA+",0,18.47,0,0,1,0,0,0,3 * 1,30,1,979,1,330 * 303.1015,"NIST 46.6","n.a." * 309790,"Al-HEDTA (aq)",37,16.34,0,0,0,0,0,0,2 * 1,30,1,979 * 302.0935,"NIST 46.6","NIST 46.6" * 6009791,"PbH-HEDTA (aq)",0,19.33,0,0,0,0,0,0,3 * 1,600,1,979,1,330 * 483.3099,"NIST 46.6","n.a." * 6009790,"Pb-HEDTA-",-52.7,16.89,0,0,-1,0,0,0,2 * 1,600,1,979 * 482.3019,"NIST 46.6","NIST 46.6" * 3619791,"HgOH-HEDTA-2",0,18.75,0,0,-2,0,0,0,4 * 1,361,1,979,1,330,-1,2 * 492.71,"NIST 46.6","n.a." * 3619790,"Hg-HEDTA-",-123.32,27.58,0,0,-1,0,0,0,4 * 1,361,1,979,2,330,-2,2 * 475.7074,"NIST 46.6","NIST 46.6" * 1609791,"CdH-HEDTA (aq)",0,17.51,0,0,0,0,0,0,3 * 1,160,1,979,1,330 * 388.5194,"NIST 46.6","n.a." * 1609790,"Cd-HEDTA-",-43,14.99,0,0,-1,0,0,0,2 * 1,160,1,979 * 387.5114,"NIST 46.6","NIST 46.6" * 9509790,"Zn-HEDTA-",-35,15.89,0,0,-1,0,0,0,2 * 1,950,1,979 * 340.4819,"NIST 46.6","NIST 46.6" * 209790,"Ag-HEDTA-2",0,7.31,0,0,-2,0,0,0,2 * 1,20,1,979 * 382.98,"NIST 46.6","n.a." * 9029790,"VO-HEDTA- (aq)",0,18.39,0,0,-1,0,0,0,2 * 1,902,1,979 * 342.051,"NIST 46.6","n.a." * 2019790,"Co-HEDTA (aq)",0,39.14,0,0,0,0,0,0,2 * 1,201,1,979 * 334.0452,"NIST 46.6","n.a." * 2819793,"Fe(OH)3-HEDTA-3",0,-2.37,0,0,-3,0,0,0,4 * 1,281,1,979,-3,330,3,2 * 381.9809,"NIST 46.6","n.a." * 2819792,"Fe(OH)2-HEDTA-2",0,8.28,0,0,-2,0,0,0,4 * 1,281,1,979,-2,330,2,2 * 364.9736,"NIST 46.6","n.a." * 2819791,"FeOH-HEDTA-",0,17.54,0,0,-1,0,0,0,4 * 1,281,1,979,-1,330,1,2 * 347.9663,"NIST 46.6","n.a." * 2819790,"Fe-HEDTA (aq)",0,21.64,0,0,0,0,0,0,2 * 1,281,1,979 * 330.959,"NIST 46.6","n.a." * 4719790,"Mn-HEDTA (aq)",0,24.74,0,0,0,0,0,0,2 * 1,471,1,979 * 330.05,"NIST 46.6","n.a." * 2319791,"CuH-HEDTA (aq)",0,21.36,0,0,0,0,0,0,3 * 1,231,1,979,1,330 * 339.666,"NIST 46.6","n.a." * 2319790,"Cu-HEDTA-",-39,18.69,0,0,-1,0,0,0,2 * 1,231,1,979 * 338.658,"NIST 46.6","NIST 46.6" * 5409791,"NiH-HEDTA (aq)",0,21.2,0,0,0,0,0,0,3 * 1,540,1,979,1,330 * 334.83,"NIST 46.6","n.a." * 5409790,"Ni-HEDTA-",-43,18.39,0,0,-1,0,0,0,2 * 1,540,1,979 * 333.822,"NIST 46.6","NIST 46.6" * 2009791,"CoH-HEDTA (aq)",0,18.25,0,0,0,0,0,0,3 * 1,200,1,979,1,330 * 335.0532,"NIST 46.6","n.a." * 2009790,"Co-HEDTA-",-27,15.79,0,0,-1,0,0,0,2 * 1,200,1,979 * 334.0452,"NIST 46.6","NIST 46.6" * 4709790,"Mn-HEDTA-",-21,12.39,0,0,-1,0,0,0,2 * 1,470,1,979 * 330.05,"NIST 46.6","NIST 46.6" * 2809791,"FeH-HEDTA (aq)",-31,16.41,0,0,0,0,0,0,3 * 1,280,1,979,1,330 * 331.967,"NIST 46.6","NIST 46.6" * 2809790,"Fe-HEDTA-",-25,13.49,0,0,-1,0,0,0,2 * 1,280,1,979 * 330.959,"NIST 46.6","NIST 46.6" * 5929790,"PuO2H-HEDTA-",0,15.31,0,0,-1,0,0,0,3 * 1,592,1,979,1,330 * 552.11,"NIST 46.6","n.a." * 5509792,"NpO2OH-HEDTA-3",0,-4.47,0,0,-3,0,0,0,4 * 1,550,1,979,-1,330,1,2 * 561.1093,"NIST 46.6","n.a." * 5509791,"NpO2H-HEDTA-",0,14.91,0,0,-1,0,0,0,3 * 1,550,1,979,1,330 * 545.11,"NIST 46.6","n.a." * 5509790,"NpO2-HEDTA-2",0,7.54,0,0,-2,0,0,0,2 * 1,550,1,979 * 544.102,"NIST 46.6","n.a." * 8029791,"ThOH-HEDTA (aq)",0,15.69,0,0,0,0,0,0,4 * 1,802,1,979,-1,330,1,2 * 524.1593,"NIST 46.6","n.a." * 8029790,"Th-HEDTA+",-4.6,21.08,0,0,1,0,0,0,2 * 1,802,1,979 * 507.152,"NIST 46.6","NIST 46.6" * 1709791,"Cf-(HEDTA)2-3",0,30.43,0,0,-3,0,0,0,2 * 1,170,2,979 * 801.224,"NIST 46.6","n.a." * 1709790,"Cf-HEDTA (aq)",0,18.24,0,0,0,0,0,0,2 * 1,170,1,979 * 526.112,"NIST 46.6","n.a." * 1909791,"Cm-(HEDTA)2-3",0,29.13,0,0,-3,0,0,0,2 * 1,190,2,979 * 797.224,"NIST 46.6","n.a." * 1909790,"Cm-HEDTA (aq)",0,17.84,0,0,0,0,0,0,2 * 1,190,1,979 * 522.112,"NIST 46.6","n.a." * 459791,"Am-(HEDTA)2-3",0,29.33,0,0,-3,0,0,0,2 * 1,45,2,979 * 793.224,"NIST 46.6","n.a." * 459790,"Am-HEDTA (aq)",0,17.64,0,0,0,0,0,0,2 * 1,45,1,979 * 518.112,"NIST 46.6","n.a." * 4509791,"LuOH-HEDTA-",0,9,0,0,-1,0,0,0,4 * 1,450,1,979,-1,330,1,2 * 467.0863,"NIST 46.6","n.a." * 4509790,"Lu-HEDTA (aq)",-9.2,17.87,0,0,0,0,0,0,2 * 1,450,1,979 * 450.079,"NIST 46.6","NIST 46.6" * 8069791,"YbOH-HEDTA-",0,8.98,0,0,-1,0,0,0,4 * 1,806,1,979,-1,330,1,2 * 465.1593,"NIST 46.6","n.a." * 8069790,"Yb-HEDTA (aq)",-8.7,17.77,0,0,0,0,0,0,2 * 1,806,1,979 * 448.152,"NIST 46.6","NIST 46.6" * 8809791,"TmOH-HEDTA-",0,8.61,0,0,-1,0,0,0,4 * 1,880,1,979,-1,330,1,2 * 461.0533,"NIST 46.6","n.a." * 8809790,"Tm-HEDTA (aq)",-7.5,17.5,0,0,0,0,0,0,2 * 1,880,1,979 * 444.046,"NIST 46.6","NIST 46.6" * 2509791,"ErOH-HEDTA-",0,8.46,0,0,-1,0,0,0,4 * 1,250,1,979,-1,330,1,2 * 459.3783,"NIST 46.6","n.a." * 2509790,"Er-HEDTA (aq)",-10,17.32,0,0,0,0,0,0,2 * 1,250,1,979 * 442.371,"NIST 46.6","NIST 46.6" * 3709791,"HoOH-HEDTA-",0,8.34,0,0,-1,0,0,0,4 * 1,370,1,979,-1,330,1,2 * 457.0493,"NIST 46.6","n.a." * 3709790,"Ho-HEDTA (aq)",-14,17.22,0,0,0,0,0,0,2 * 1,370,1,979 * 440.042,"NIST 46.6","NIST 46.6" * 2409791,"DyOH-HEDTA-",0,8.08,0,0,-1,0,0,0,4 * 1,240,1,979,-1,330,1,2 * 454.6193,"NIST 46.6","n.a." * 2409790,"Dy-HEDTA (aq)",-20,17.2,0,0,0,0,0,0,2 * 1,240,1,979 * 437.612,"NIST 46.6","NIST 46.6" * 8019791,"TbOH-HEDTA-",0,7.74,0,0,-1,0,0,0,4 * 1,801,1,979,-1,330,1,2 * 451.0443,"NIST 46.6","n.a." * 8019790,"Tb-HEDTA (aq)",-24,17.22,0,0,0,0,0,0,2 * 1,801,1,979 * 434.037,"NIST 46.6","NIST 46.6" * 3109791,"GdOH-HEDTA-",0,7.12,0,0,-1,0,0,0,4 * 1,310,1,979,-1,330,1,2 * 449.3693,"NIST 46.6","n.a." * 3109790,"Gd-HEDTA (aq)",-28,17.14,0,0,0,0,0,0,2 * 1,310,1,979 * 432.362,"NIST 46.6","NIST 46.6" * 2609791,"EuOH-HEDTA-",0,7.31,0,0,-1,0,0,0,4 * 1,260,1,979,-1,330,1,2 * 444.0833,"NIST 46.6","n.a." * 2609790,"Eu-HEDTA (aq)",-29,17.28,0,0,0,0,0,0,2 * 1,260,1,979 * 427.076,"NIST 46.6","NIST 46.6" * 7809791,"SmOH-HEDTA-",0,6.95,0,0,-1,0,0,0,4 * 1,780,1,979,-1,330,1,2 * 442.4793,"NIST 46.6","n.a." * 7809790,"Sm-HEDTA (aq)",-29,17.25,0,0,0,0,0,0,2 * 1,780,1,979 * 425.472,"NIST 46.6","NIST 46.6" * 5209791,"NdOH-HEDTA-",0,6.41,0,0,-1,0,0,0,4 * 1,520,1,979,-1,330,1,2 * 436.3593,"NIST 46.6","n.a." * 5209790,"Nd-HEDTA (aq)",-25,16.82,0,0,0,0,0,0,2 * 1,520,1,979 * 419.352,"NIST 46.6","NIST 46.6" * 5859791,"PrOH-HEDTA-",0,6.24,0,0,-1,0,0,0,4 * 1,585,1,979,-1,330,1,2 * 433.0273,"NIST 46.6","n.a." * 5859790,"Pr-HEDTA (aq)",-23,16.55,0,0,0,0,0,0,2 * 1,585,1,979 * 416.02,"NIST 46.6","NIST 46.6" * 8059791,"YOH-HEDTA-",0,7.42,0,0,-1,0,0,0,4 * 1,805,1,979,-1,330,1,2 * 381.0293,"NIST 46.6","n.a." * 8059790,"Y-HEDTA (aq)",-10,16.66,0,0,0,0,0,0,2 * 1,805,1,979 * 364.022,"NIST 46.6","NIST 46.6" * 7509790,"Sc-HEDTA (aq)",0,19.24,0,0,0,0,0,0,2 * 1,750,1,979 * 320.068,"NIST 46.6","n.a." * 4209791,"LaOH-HEDTA-",0,4.88,0,0,-1,0,0,0,4 * 1,420,1,979,-1,330,1,2 * 431.0253,"NIST 46.6","n.a." * 4209790,"La-HEDTA (aq)",-17,15.42,0,0,0,0,0,0,2 * 1,420,1,979 * 414.018,"NIST 46.6","NIST 46.6" * 1009790,"Ba-HEDTA-",-22,7.49,0,0,-1,0,0,0,2 * 1,100,1,979 * 412.452,"NIST 46.6","NIST 46.6" * 8009790,"Sr-HEDTA-",-21,8.09,0,0,-1,0,0,0,2 * 1,800,1,979 * 362.732,"NIST 46.6","NIST 46.6" * 1509790,"Ca-HEDTA-",-27,9.39,0,0,-1,0,0,0,2 * 1,150,1,979 * 315.192,"NIST 46.6","NIST 46.6" * 4609790,"Mg-HEDTA-",14,8.29,0,0,-1,0,0,0,2 * 1,460,1,979 * 299.424,"NIST 46.6","NIST 46.6" * 9793303,"H4-HEDTA+",0,20.58,0,0,1,0,0,0,2 * 1,979,4,330 * 279.144,"NIST 46.6","n.a." * 9793302,"H3-HEDTA (aq)",-34,19.08,0,0,0,0,0,0,2 * 1,979,3,330 * 278.136,"NIST 46.6","NIST 46.6" * 9793301,"H2-HEDTA-",-39,16.23,0,0,-1,0,0,0,2 * 1,979,2,330 * 277.128,"NIST 46.6","NIST 46.6" * 9793300,"H-HEDTA-2",-27,10.42,0,0,-2,0,0,0,2 * 1,979,1,330 * 276.12,"NIST 46.6","NIST 46.6" * 3309801,"H[2-Picoline]",-25.5224,5.95,0,0,1,0,0,0,2 * 1,330,1,980 * 94.1359,"NIST46.2","NIST46.2" * 2319801,"Cu[2-Picoline]",0,1.3,0,0,2,0,0,0,2 * 1,231,1,980 * 156.674,"NIST46.2","NIST46.2" * 2319802,"Cu[2-Picoline]2",0,2.8,0,0,2,0,0,0,2 * 1,231,2,980 * 249.802,"NIST46.2","NIST46.2" * 2309801,"Cu[2-Picoline]",0,5.4,0,0,1,0,0,0,2 * 1,230,1,980 * 156.674,"NIST46.2","NIST46.2" * 2309802,"Cu[2-Picoline]2",0,7.65,0,0,1,0,0,0,2 * 1,230,2,980 * 249.802,"NIST46.2","NIST46.2" * 2309803,"Cu[2-Picoline]3",0,8.5,0,0,1,0,0,0,2 * 1,230,3,980 * 342.93,"NIST46.2","NIST46.2" * 209801,"Ag[2-Picoline]",-24.2672,2.32,0,0,1,0,0,0,2 * 1,20,1,980 * 200.9962,"NIST46.2","NIST46.2" * 209802,"Ag[2-Picoline]2",-42.6768,4.68,0,0,1,0,0,0,2 * 1,20,2,980 * 294.1242,"NIST46.2","NIST46.2" * 5409801,"Ni[2-Picoline]",0,.4,0,0,2,0,0,0,2 * 1,540,1,980 * 151.818,"NIST46.2","NIST46.2" * 3309811,"H[3-Picoline]",-23.8488,5.7,0,0,1,0,0,0,2 * 1,330,1,981 * 94.1359,"NIST46.2","NIST46.2" * 9509811,"Zn[3-Picoline]",0,1,0,0,2,0,0,0,2 * 1,950,1,981 * 158.518,"NIST46.2","NIST46.2" * 9509812,"Zn[3-Picoline]2",0,2.1,0,0,2,0,0,0,2 * 1,950,2,981 * 251.646,"NIST46.2","NIST46.2" * 9509813,"Zn[3-Picoline]3",0,2.6,0,0,2,0,0,0,2 * 1,950,3,981 * 344.774,"NIST46.2","NIST46.2" * 9509814,"Zn[3-Picoline]4",0,3.7,0,0,2,0,0,0,2 * 1,950,4,981 * 437.902,"NIST46.2","NIST46.2" * 1609811,"Cd[3-Picoline]",0,1.42,0,0,2,0,0,0,2 * 1,160,1,981 * 205.538,"SCD2.62","SCD2.62" * 1609812,"Cd[3-Picoline]2",0,2.27,0,0,2,0,0,0,2 * 1,160,2,981 * 298.666,"SCD2.62","SCD2.62" * 1609813,"Cd[3-Picoline]3",0,3.6,0,0,2,0,0,0,2 * 1,160,3,981 * 391.794,"NIST46.2","NIST46.2" * 1609814,"Cd[3-Picoline]4",0,4,0,0,2,0,0,0,2 * 1,160,4,981 * 484.922,"NIST46.2","NIST46.2" * 2309811,"Cu[3-Picoline]",0,5.6,0,0,1,0,0,0,2 * 1,230,1,981 * 156.674,"NIST46.2","NIST46.2" * 2309812,"Cu[3-Picoline]2",0,7.78,0,0,1,0,0,0,2 * 1,230,2,981 * 249.802,"NIST46.2","NIST46.2" * 2309813,"Cu[3-Picoline]3",0,8.6,0,0,1,0,0,0,2 * 1,230,3,981 * 342.93,"NIST46.2","NIST46.2" * 2309814,"Cu[3-Picoline]4",0,9,0,0,1,0,0,0,2 * 1,230,4,981 * 436.058,"NIST46.2","NIST46.2" * 2319811,"Cu[3-Picoline]",0,2.77,0,0,2,0,0,0,2 * 1,231,1,981 * 156.674,"NIST46.2","NIST46.2" * 2319812,"Cu[3-Picoline]2",0,4.8,0,0,2,0,0,0,2 * 1,231,2,981 * 249.802,"NIST46.2","NIST46.2" * 2319813,"Cu[3-Picoline]3",0,6.3,0,0,2,0,0,0,2 * 1,231,3,981 * 342.93,"NIST46.2","NIST46.2" * 2319814,"Cu[3-Picoline]4",0,7.2,0,0,2,0,0,0,2 * 1,231,4,981 * 436.058,"NIST46.2","NIST46.2" * 209811,"Ag[3-Picoline]",-21.7568,2.2,0,0,1,0,0,0,2 * 1,20,1,981 * 200.9962,"NIST46.2","NIST46.2" * 209812,"Ag[3-Picoline]2",-49.7896,4.46,0,0,1,0,0,0,2 * 1,20,2,981 * 294.1242,"NIST46.2","NIST46.2" * 5409811,"Ni[3-Picoline]",0,1.87,0,0,2,0,0,0,2 * 1,540,1,981 * 151.818,"NIST46.2","NIST46.2" * 5409812,"Ni[3-Picoline]2",0,3.3,0,0,2,0,0,0,2 * 1,540,2,981 * 244.946,"NIST46.2","NIST46.2" * 5409813,"Ni[3-Picoline]3",0,4.1,0,0,2,0,0,0,2 * 1,540,3,981 * 338.074,"NIST46.2","NIST46.2" * 5409814,"Ni[3-Picoline]4",0,4.6,0,0,2,0,0,0,2 * 1,540,4,981 * 431.202,"NIST46.2","NIST46.2" * 2009811,"Co[3-Picoline]",0,1.4,0,0,2,0,0,0,2 * 1,200,1,981 * 152.0612,"NIST46.4","NIST46.2" * 2009812,"Co[3-Picoline]2",0,2.2,0,0,2,0,0,0,2 * 1,200,2,981 * 245.1892,"NIST46.4","NIST46.2" * 2009813,"Co[3-Picoline]3",0,2.5,0,0,2,0,0,0,2 * 1,200,3,981 * 338.3172,"NIST46.4","NIST46.2" * 3309821,"H[4-Picoline]",-25.3132,6.03,0,0,1,0,0,0,2 * 1,330,1,982 * 94.1359,"NIST46.2","NIST46.2" * 9509821,"Zn[4-Picoline]",0,1.4,0,0,2,0,0,0,2 * 1,950,1,982 * 158.518,"NIST46.2","NIST46.2" * 9509822,"Zn[4-Picoline]2",0,2.11,0,0,2,0,0,0,2 * 1,950,2,982 * 251.646,"NIST46.2","NIST46.2" * 9509823,"Zn[4-Picoline]3",0,2.85,0,0,2,0,0,0,2 * 1,950,3,982 * 344.774,"NIST46.2","NIST46.2" * 1609821,"Cd[4-Picoline]",0,1.59,0,0,2,0,0,0,2 * 1,160,1,982 * 205.538,"SCD2.62","SCD2.62" * 1609822,"Cd[4-Picoline]2",0,2.4,0,0,2,0,0,0,2 * 1,160,2,982 * 298.666,"SCD2.62","SCD2.62" * 1609823,"Cd[4-Picoline]3",0,3.18,0,0,2,0,0,0,2 * 1,160,3,982 * 391.794,"SCD2.62","SCD2.62" * 1609824,"Cd[4-Picoline]4",0,4,0,0,2,0,0,0,2 * 1,160,4,982 * 484.922,"NIST46.2","NIST46.2" * 2309821,"Cu[4-Picoline]",0,5.65,0,0,1,0,0,0,2 * 1,230,1,982 * 156.674,"NIST46.2","NIST46.2" * 2309822,"Cu[4-Picoline]2",0,8.2,0,0,1,0,0,0,2 * 1,230,2,982 * 249.802,"NIST46.2","NIST46.2" * 2309823,"Cu[4-Picoline]3",0,8.8,0,0,1,0,0,0,2 * 1,230,3,982 * 342.93,"NIST46.2","NIST46.2" * 2309824,"Cu[4-Picoline]4",0,9.2,0,0,1,0,0,0,2 * 1,230,4,982 * 436.058,"NIST46.2","NIST46.2" * 2319821,"Cu[4-Picoline]",0,2.88,0,0,2,0,0,0,2 * 1,231,1,982 * 156.674,"NIST46.2","NIST46.2" * 2319822,"Cu[4-Picoline]2",0,5.16,0,0,2,0,0,0,2 * 1,231,2,982 * 249.802,"NIST46.2","NIST46.2" * 2319823,"Cu[4-Picoline]3",0,6.77,0,0,2,0,0,0,2 * 1,231,3,982 * 342.93,"NIST46.2","NIST46.2" * 2319824,"Cu[4-Picoline]4",0,8.08,0,0,2,0,0,0,2 * 1,231,4,982 * 436.058,"NIST46.2","NIST46.2" * 2319825,"Cu[4-Picoline]5",0,8.3,0,0,2,0,0,0,2 * 1,231,5,982 * 529.186,"NIST46.2","NIST46.2" * 209821,"Ag[4-Picoline]",-25.5224,2.03,0,0,1,0,0,0,2 * 1,20,1,982 * 200.9962,"NIST46.2","NIST46.2" * 209822,"Ag[4-Picoline]2",-53.5552,4.39,0,0,1,0,0,0,2 * 1,20,2,982 * 294.1242,"NIST46.2","NIST46.2" * 5409821,"Ni[4-Picoline]",0,2.11,0,0,2,0,0,0,2 * 1,540,1,982 * 151.818,"NIST46.2","NIST46.2" * 5409822,"Ni[4-Picoline]2",0,3.59,0,0,2,0,0,0,2 * 1,540,2,982 * 244.946,"NIST46.2","NIST46.2" * 5409823,"Ni[4-Picoline]3",0,4.34,0,0,2,0,0,0,2 * 1,540,3,982 * 338.074,"NIST46.2","NIST46.2" * 5409824,"Ni[4-Picoline]4",0,4.7,0,0,2,0,0,0,2 * 1,540,4,982 * 431.202,"NIST46.2","NIST46.2" * 2009821,"Co[4-Picoline]",0,1.56,0,0,2,0,0,0,2 * 1,200,1,982 * 152.0612,"NIST46.4","NIST46.2" * 2009822,"Co[4-Picoline]2",0,2.51,0,0,2,0,0,0,2 * 1,200,2,982 * 245.1892,"NIST46.4","NIST46.2" * 2009823,"Co[4-Picoline]3",0,2.94,0,0,2,0,0,0,2 * 1,200,3,982 * 338.3172,"NIST46.4","NIST46.2" * 2009824,"Co[4-Picoline]4",0,3.17,0,0,2,0,0,0,2 * 1,200,4,982 * 431.4452,"NIST46.4","NIST46.2" * 3309831,"H-Formate (aq)",.16,3.744,0,0,0,0,0,0,2 * 1,330,1,983 * 46.0259,"NIST 46.6","NIST 46.6" * 309832,"AlOH-Formate+",0,-1.62,0,0,1,0,0,0,4 * 1,30,1,983,-1,330,1,2 * 89.0068,"NIST 46.6","n.a." * 309831,"Al-(Formate)2+",0,3.04,0,0,1,0,0,0,2 * 1,30,2,983 * 117.0175,"NIST 46.6","n.a." * 309830,"Al-Formate+2",0,1.97,0,0,2,0,0,0,2 * 1,30,1,983 * 71.9995,"NIST 46.6","n.a." * 5709830,"Pd-Formate+",-8,4.08,0,0,1,0,0,0,2 * 1,570,1,983 * 151.438,"NIST 46.6","NIST 46.6" * 9039830,"VO2-Formate (aq)",0,17.55,0,0,0,0,0,0,4 * 1,903,1,983,3,330,-2,2 * 127.957,"NIST 46.7","n.a." * 9029831,"VO-(Formate)2 (aq)",0,3.48,0,0,0,0,0,0,2 * 1,902,2,983 * 156.975,"NIST 46.6","n.a." * 9029830,"VO-Formate+",0,2.39,0,0,1,0,0,0,2 * 1,902,1,983 * 111.957,"NIST 46.6","n.a." * 2819830,"Fe-Formate+2",27,3.21,0,0,2,0,0,0,2 * 1,281,1,983 * 100.865,"NIST 46.6","NIST 46.6" * 8939832,"UO2-(Formate)3-",0,4.13,0,0,-1,0,0,0,2 * 1,893,3,983 * 405.0818,"NIST 46.6","n.a." * 8939831,"UO2-(Formate)2 (aq)",0,3.76,0,0,0,0,0,0,2 * 1,893,2,983 * 360.0638,"NIST 46.6","n.a." * 8939830,"UO2-Formate+",0,2.27,0,0,1,0,0,0,2 * 1,893,1,983 * 315.0458,"NIST 46.6","n.a." * 8029832,"Th-(Formate)3+",0,8.57,0,0,1,0,0,0,2 * 1,802,3,983 * 367.094,"NIST 46.6","n.a." * 8029831,"Th-(Formate)2+2",0,6.58,0,0,2,0,0,0,2 * 1,802,2,983 * 322.076,"NIST 46.6","n.a." * 8029830,"Th-Formate+3",0,3.91,0,0,3,0,0,0,2 * 1,802,1,983 * 277.058,"NIST 46.6","n.a." * 4509831,"Lu-(Formate)2+",0,3.18,0,0,1,0,0,0,2 * 1,450,2,983 * 265.003,"NIST 46.6","n.a." * 4509830,"Lu-Formate+2",0,1.64,0,0,2,0,0,0,2 * 1,450,1,983 * 219.985,"NIST 46.6","n.a." * 8069831,"Yb-(Formate)2+",0,2.34,0,0,1,0,0,0,2 * 1,806,2,983 * 263.076,"NIST 46.6","n.a." * 8069830,"Yb-Formate+2",0,1.71,0,0,2,0,0,0,2 * 1,806,1,983 * 218.058,"NIST 46.6","n.a." * 8809831,"Tm-(Formate)2+",0,2.68,0,0,1,0,0,0,2 * 1,880,2,983 * 258.97,"NIST 46.6","n.a." * 8809830,"Tm-Formate+2",0,1.73,0,0,2,0,0,0,2 * 1,880,1,983 * 213.952,"NIST 46.6","n.a." * 2509831,"Er-(Formate)2+",0,2.89,0,0,1,0,0,0,2 * 1,250,2,983 * 257.295,"NIST 46.6","n.a." * 2509830,"Er-Formate+2",0,1.76,0,0,2,0,0,0,2 * 1,250,1,983 * 212.277,"NIST 46.6","n.a." * 3709831,"Ho-(Formate)2+",0,3.04,0,0,1,0,0,0,2 * 1,370,2,983 * 254.966,"NIST 46.6","n.a." * 3709830,"Ho-Formate+2",0,1.79,0,0,2,0,0,0,2 * 1,370,1,983 * 209.948,"NIST 46.6","n.a." * 2409831,"Dy-(Formate)2+",0,2.6,0,0,1,0,0,0,2 * 1,240,2,983 * 252.536,"NIST 46.6","n.a." * 2409830,"Dy-Formate+2",0,1.86,0,0,2,0,0,0,2 * 1,240,1,983 * 207.518,"NIST 46.6","n.a." * 8019831,"Tb-(Formate)2+",0,2.82,0,0,1,0,0,0,2 * 1,801,2,983 * 248.961,"NIST 46.6","n.a." * 8019830,"Tb-Formate+2",0,1.89,0,0,2,0,0,0,2 * 1,801,1,983 * 203.943,"NIST 46.6","n.a." * 3109831,"Gd-(Formate)2+",0,2.95,0,0,1,0,0,0,2 * 1,310,2,983 * 247.286,"NIST 46.6","n.a." * 3109830,"Gd-Formate+2",0,1.99,0,0,2,0,0,0,2 * 1,310,1,983 * 202.268,"NIST 46.6","n.a." * 2609831,"Eu-(Formate)2+",0,3.02,0,0,1,0,0,0,2 * 1,260,2,983 * 242,"NIST 46.6","n.a." * 2609830,"Eu-Formate+2",0,2.05,0,0,2,0,0,0,2 * 1,260,1,983 * 196.982,"NIST 46.6","n.a." * 7809831,"Sm-(Formate)2+",0,2.73,0,0,1,0,0,0,2 * 1,780,2,983 * 240.396,"NIST 46.6","n.a." * 7809830,"Sm-Formate+2",0,1.88,0,0,2,0,0,0,2 * 1,780,1,983 * 195.378,"NIST 46.6","n.a." * 5209831,"Nd-(Formate)2+",0,2.62,0,0,1,0,0,0,2 * 1,520,2,983 * 234.276,"NIST 46.6","n.a." * 5209830,"Nd-Formate+2",0,1.8,0,0,2,0,0,0,2 * 1,520,1,983 * 189.258,"NIST 46.6","n.a." * 5859831,"Pr-(Formate)2+",0,2.61,0,0,1,0,0,0,2 * 1,585,2,983 * 230.944,"NIST 46.6","n.a." * 5859830,"Pr-Formate+2",0,1.79,0,0,2,0,0,0,2 * 1,585,1,983 * 185.926,"NIST 46.6","n.a." * 4209831,"La-(Formate)2+",0,3.17,0,0,1,0,0,0,2 * 1,420,2,983 * 228.942,"NIST 46.6","n.a." * 4209830,"La-Formate+2",0,1.75,0,0,2,0,0,0,2 * 1,420,1,983 * 183.924,"NIST 46.6","n.a." * 8059831,"Y-(Formate)2+",0,3.03,0,0,1,0,0,0,2 * 1,805,2,983 * 178.946,"NIST 46.6","n.a." * 8059830,"Y-Formate+2",0,1.77,0,0,2,0,0,0,2 * 1,805,1,983 * 133.928,"NIST 46.6","n.a." * 6009831,"Pb-Formate+",0,2.19,0,0,1,0,0,0,2 * 1,600,1,983 * 252.218,"NIST 46.6","n.a." * 9509831,"Zn-Formate+",0,1.44,0,0,1,0,0,0,2 * 1,950,1,983 * 110.408,"NIST 46.6","n.a." * 1609831,"Cd-Formate+",0,1.69,0,0,1,0,0,0,2 * 1,160,1,983 * 157.428,"NIST 46.6","n.a." * 3619831,"Hg-Formate+",0,9.69,0,0,1,0,0,0,4 * 1,361,1,983,-2,2,2,330 * 245.6032,"NIST 46.6","n.a." * 2319831,"Cu-Formate+",0,2,0,0,1,0,0,0,2 * 1,231,1,983 * 108.564,"NIST 46.6","n.a." * 5409831,"Ni-Formate+",0,1.21,0,0,1,0,0,0,2 * 1,540,1,983 * 103.708,"NIST 46.6","n.a." * 2009831,"Co-Formate+",0,1.21,0,0,1,0,0,0,2 * 1,200,1,983 * 103.9512,"NIST 46.6","n.a." * 2009832,"Co-(Formate)2 (aq)",0,1.1365,0,0,0,0,0,0,2 * 1,200,2,983 * 148.9692,"NIST46.4","NIST46.2" * 2109831,"Cr-Formate+",0,1.07,0,0,1,0,0,0,2 * 1,210,1,983 * 97.0141,"NIST 46.6","n.a." * 4609831,"Mg-Formate+",0,1.43,0,0,1,0,0,0,2 * 1,460,1,983 * 69.323,"NIST 46.6","n.a." * 1509831,"Ca-Formate+",4,1.43,0,0,1,0,0,0,2 * 1,150,1,983 * 85.096,"NIST 46.6","NIST 46.6" * 8009831,"Sr-Formate+",4,1.39,0,0,1,0,0,0,2 * 1,800,1,983 * 132.638,"NIST 46.6","NIST 46.6" * 1009831,"Ba-Formate+",0,1.38,0,0,1,0,0,0,2 * 1,100,1,983 * 182.348,"NIST 46.6","n.a." * 8059860,"Y-(Lactate)3 (aq)",0,8.27,0,0,0,0,0,0,2 * 1,805,3,986 * 356.126,"NIST 46.8","n.a." * 6009861,"Pb-(Lactate)2 (aq)",10,3.59,0,0,0,0,0,0,2 * 1,600,2,986 * 385.334,"NIST 46.8","NIST 46.8" * 6009860,"Pb-Lactate+",-7.5,2.78,0,0,1,0,0,0,2 * 1,600,1,986 * 296.262,"NIST 46.8","NIST 46.8" * 1609862,"Cd-(Lactate)3-",0,3.11,0,0,-1,0,0,0,2 * 1,160,3,986 * 379.615,"NIST 46.8","n.a." * 1609861,"Cd-(Lactate)2 (aq)",0,2.69,0,0,0,0,0,0,2 * 1,160,2,986 * 290.543,"NIST 46.8","n.a." * 1609860,"Cd-Lactate+",0,1.7,0,0,1,0,0,0,2 * 1,160,1,986 * 201.471,"NIST 46.8","n.a." * 9509862,"Zn-(Lactate)3-",0,4.01,0,0,-1,0,0,0,2 * 1,950,3,986 * 332.586,"NIST 46.8","n.a." * 9509861,"Zn-(Lactate)2 (aq)",0,3.75,0,0,0,0,0,0,2 * 1,950,2,986 * 243.514,"NIST 46.8","n.a." * 9509860,"Zn-Lactate+",0,2.22,0,0,1,0,0,0,2 * 1,950,1,986 * 154.442,"NIST 46.8","n.a." * 5709860,"Pd-Lactate+",-8,4.13,0,0,1,0,0,0,2 * 1,570,1,986 * 195.582,"NIST 46.8","NIST 46.8" * 2319862,"Cu-(Lactate)3-",-.4,5.31,0,0,-1,0,0,0,2 * 1,231,3,986 * 330.762,"NIST 46.8","NIST 46.8" * 2319861,"Cu-(Lactate)2 (aq)",.4,4.84,0,0,0,0,0,0,2 * 1,231,2,986 * 241.69,"NIST 46.8","NIST 46.8" * 2319860,"Cu-Lactate+",.8,3.02,0,0,1,0,0,0,2 * 1,231,1,986 * 152.618,"NIST 46.8","NIST 46.8" * 5409862,"Ni-(Lactate)3-",0,3.71,0,0,-1,0,0,0,2 * 1,540,3,986 * 325.926,"NIST 46.8","n.a." * 5409861,"Ni-(Lactate)2 (aq)",-2,3.47,0,0,0,0,0,0,2 * 1,540,2,986 * 236.854,"NIST 46.8","NIST 46.8" * 5409860,"Ni-Lactate+",-.8,2.2,0,0,1,0,0,0,2 * 1,540,1,986 * 147.782,"NIST 46.8","NIST 46.8" * 2009862,"Co-(Lactate)3-",0,3.11,0,0,-1,0,0,0,2 * 1,200,3,986 * 326.149,"NIST 46.8","n.a." * 2009861,"Co-(Lactate)2 (aq)",.4,3.08,0,0,0,0,0,0,2 * 1,200,2,986 * 237.077,"NIST 46.8","NIST 46.8" * 2009860,"Co-Lactate+",0,1.9,0,0,1,0,0,0,2 * 1,200,1,986 * 148.005,"NIST 46.8","NIST 46.8" * 4709862,"Mn-(Lactate)3-",0,2.21,0,0,-1,0,0,0,2 * 1,470,3,986 * 322.154,"NIST 46.8","n.a." * 4709861,"Mn-(Lactate)2 (aq)",0,2.17,0,0,0,0,0,0,2 * 1,470,2,986 * 233.082,"NIST 46.8","n.a." * 4709860,"Mn-Lactate+",0,1.43,0,0,1,0,0,0,2 * 1,470,1,986 * 144.01,"NIST 46.8","n.a." * 8939862,"UO2-(Lactate)3-",0,6.31,0,0,-1,0,0,0,2 * 1,893,3,986 * 537.244,"NIST 46.8","n.a." * 8939861,"UO2-(Lactate)2 (aq)",0,5.16,0,0,0,0,0,0,2 * 1,893,2,986 * 448.172,"NIST 46.8","n.a." * 8939860,"UO2-Lactate+",0,3.13,0,0,1,0,0,0,2 * 1,893,1,986 * 359.1,"NIST 46.8","n.a." * 5509861,"NpO2-(Lactate)2-",0,2.21,0,0,-1,0,0,0,2 * 1,550,2,986 * 447.134,"NIST 46.8","n.a." * 5509860,"NpO2-Lactate (aq)",0,1.97,0,0,0,0,0,0,2 * 1,550,1,986 * 358.062,"NIST 46.8","n.a." * 8919862,"U-(Lactate)3+",0,13.64,0,0,1,0,0,0,2 * 1,891,3,986 * 505.245,"NIST 46.8","n.a." * 8919861,"U-(Lactate)2+2",0,9.73,0,0,2,0,0,0,2 * 1,891,2,986 * 416.173,"NIST 46.8","n.a." * 8919860,"U-Lactate+3",0,5.22,0,0,3,0,0,0,2 * 1,891,1,986 * 327.101,"NIST 46.8","n.a." * 8029863,"Th-(Lactate)4 (aq)",0,15.04,0,0,0,0,0,0,2 * 1,802,4,986 * 588.328,"NIST 46.8","n.a." * 8029862,"Th-(Lactate)3+",0,12.38,0,0,1,0,0,0,2 * 1,802,3,986 * 499.256,"NIST 46.8","n.a." * 8029861,"Th-(Lactate)2+2",0,9.21,0,0,2,0,0,0,2 * 1,802,2,986 * 410.184,"NIST 46.8","n.a." * 8029860,"Th-Lactate+3",0,5.03,0,0,3,0,0,0,2 * 1,802,1,986 * 321.112,"NIST 46.8","n.a." * 1709860,"Cf-(Lactate)3 (aq)",0,7.7,0,0,0,0,0,0,2 * 1,170,3,986 * 372.152,"NIST 46.8","n.a." * 1909860,"Cm-(Lactate)3 (aq)",0,7.37,0,0,0,0,0,0,2 * 1,190,3,986 * 514.216,"NIST 46.8","n.a." * 459862,"Am-(Lactate)3 (aq)",-20,7.32,0,0,0,0,0,0,2 * 1,45,3,986 * 510.216,"NIST 46.8","NIST 46.8" * 459861,"Am-(Lactate)2+",-4,5.22,0,0,1,0,0,0,2 * 1,45,2,986 * 421.144,"NIST 46.8","NIST 46.8" * 459860,"Am-Lactate+2",-8,3.04,0,0,2,0,0,0,2 * 1,45,1,986 * 332.072,"NIST 46.8","NIST 46.8" * 4509862,"Lu-(Lactate)3 (aq)",0,9.08,0,0,0,0,0,0,2 * 1,450,3,986 * 442.183,"NIST 46.8","n.a." * 4509861,"Lu-(Lactate)2+",0,6.96,0,0,1,0,0,0,2 * 1,450,2,986 * 353.111,"NIST 46.8","n.a." * 4509860,"Lu-Lactate+2",0,3.95,0,0,2,0,0,0,2 * 1,450,1,986 * 264.039,"NIST 46.8","n.a." * 8069862,"Yb-(Lactate)3 (aq)",-8,8.88,0,0,0,0,0,0,2 * 1,806,3,986 * 440.256,"NIST 46.8","NIST 46.8" * 8069861,"Yb-(Lactate)2+",-12,6.9,0,0,1,0,0,0,2 * 1,806,2,986 * 351.184,"NIST 46.8","NIST 46.8" * 8069860,"Yb-Lactate+2",-9.2,3.9,0,0,2,0,0,0,2 * 1,806,1,986 * 262.112,"NIST 46.8","NIST 46.8" * 8809862,"Tm-(Lactate)3 (aq)",0,8.73,0,0,0,0,0,0,2 * 1,880,3,986 * 436.15,"NIST 46.8","n.a." * 8809861,"Tm-(Lactate)2+",0,6.79,0,0,1,0,0,0,2 * 1,880,2,986 * 347.078,"NIST 46.8","n.a." * 8809860,"Tm-Lactate+2",0,3.82,0,0,2,0,0,0,2 * 1,880,1,986 * 258.006,"NIST 46.8","n.a." * 2509862,"Er-(Lactate)2+",-4,6.7,0,0,1,0,0,0,2 * 1,250,2,986 * 345.403,"NIST 46.8","NIST 46.8" * 2509861,"Er-(Lactate)3 (aq)",-20,8.5,0,0,0,0,0,0,2 * 1,250,3,986 * 434.475,"NIST 46.8","NIST 46.8" * 2509860,"Er-Lactate+2",-7.9,3.79,0,0,2,0,0,0,2 * 1,250,1,986 * 256.331,"NIST 46.8","NIST 46.8" * 3709862,"Ho-(Lactate)3 (aq)",0,8.11,0,0,0,0,0,0,2 * 1,370,3,986 * 432.146,"NIST 46.8","n.a." * 3709861,"Ho-(Lactate)2+",0,6.5,0,0,1,0,0,0,2 * 1,370,2,986 * 343.074,"NIST 46.8","n.a." * 3709860,"Ho-Lactate+2",0,3.7,0,0,2,0,0,0,2 * 1,370,1,986 * 254.002,"NIST 46.8","n.a." * 2409862,"Dy-(Lactate)3 (aq)",0,7.97,0,0,0,0,0,0,2 * 1,240,3,986 * 429.716,"NIST 46.8","n.a." * 2409861,"Dy-(Lactate)2+",0,6.43,0,0,1,0,0,0,2 * 1,240,2,986 * 340.644,"NIST 46.8","n.a." * 2409860,"Dy-Lactate+2",-9.2,3.58,0,0,2,0,0,0,2 * 1,240,1,986 * 251.572,"NIST 46.8","NIST 46.8" * 8019862,"Tb-(Lactate)3 (aq)",0,7.66,0,0,0,0,0,0,2 * 1,801,3,986 * 426.141,"NIST 46.8","NIST 46.8" * 8019861,"Tb-(Lactate)2+",0,6.29,0,0,1,0,0,0,2 * 1,801,2,986 * 337.069,"NIST 46.8","n.a." * 8019860,"Tb-Lactate+2",-6.6,3.6,0,0,2,0,0,0,2 * 1,801,1,986 * 247.997,"NIST 46.8","NIST 46.8" * 3109862,"Gd-(Lactate)3 (aq)",-20,7.54,0,0,0,0,0,0,2 * 1,310,3,986 * 424.466,"NIST 46.8","NIST 46.8" * 3109861,"Gd-(Lactate)2+",-8,6.12,0,0,1,0,0,0,2 * 1,310,2,986 * 335.394,"NIST 46.8","NIST 46.8" * 3109860,"Gd-Lactate+2",-8.3,3.56,0,0,2,0,0,0,2 * 1,310,1,986 * 246.322,"NIST 46.8","NIST 46.8" * 2609862,"Eu-(Lactate)3 (aq)",-20,7.74,0,0,0,0,0,0,2 * 1,260,3,986 * 419.18,"NIST 46.8","NIST 46.8" * 2609861,"Eu-(Lactate)2+",-8,6.26,0,0,1,0,0,0,2 * 1,260,2,986 * 330.108,"NIST 46.8","NIST 46.8" * 2609860,"Eu-Lactate+2",-6.2,3.55,0,0,2,0,0,0,2 * 1,260,1,986 * 241.036,"NIST 46.8","NIST 46.8" * 7809862,"Sm-(Lactate)3 (aq)",-37,7.65,0,0,0,0,0,0,2 * 1,780,3,986 * 417.576,"NIST 46.8","NIST 46.8" * 7809861,"Sm-(Lactate)2+",-8,6.17,0,0,1,0,0,0,2 * 1,780,2,986 * 328.504,"NIST 46.8","NIST 46.8" * 7809860,"Sm-Lactate+2",-9.6,3.53,0,0,2,0,0,0,2 * 1,780,1,986 * 239.432,"NIST 46.8","NIST 46.8" * 5209862,"Nd-(Lactate)3 (aq)",0,7.68,0,0,0,0,0,0,2 * 1,520,3,986 * 411.456,"NIST 46.8","n.a." * 5209861,"Nd-(Lactate)2+",-4,6.05,0,0,1,0,0,0,2 * 1,520,2,986 * 322.384,"NIST 46.8","NIST 46.8" * 5209860,"Nd-Lactate+2",-13,3.37,0,0,2,0,0,0,2 * 1,520,1,986 * 233.212,"NIST 46.8","NIST 46.8" * 5859862,"Pr-(Lactate)3 (aq)",0,7.4,0,0,0,0,0,0,2 * 1,585,3,986 * 408.124,"NIST 46.8","n.a." * 5859861,"Pr-(Lactate)2+",0,5.98,0,0,1,0,0,0,2 * 1,585,2,986 * 319.052,"NIST 46.8","n.a." * 5859860,"Pr-Lactate+2",0,3.3,0,0,2,0,0,0,2 * 1,585,1,986 * 229.98,"NIST 46.8","n.a." * 1359862,"Ce-(Lactate)3 (aq)",-25,7.26,0,0,0,0,0,0,2 * 1,135,3,986 * 407.332,"NIST 46.8","NIST 46.8" * 1359861,"Ce-(Lactate)2+",-4,5.81,0,0,1,0,0,0,2 * 1,135,2,986 * 318.26,"NIST 46.8","NIST 46.8" * 1359860,"Ce-Lactate+2",-7.1,3.21,0,0,2,0,0,0,2 * 1,135,1,986 * 229.188,"NIST 46.8","NIST 46.8" * 4209862,"La-(Lactate)3 (aq)",-20,6.94,0,0,0,0,0,0,2 * 1,420,3,986 * 406.122,"NIST 46.8","NIST 46.8" * 4209861,"La-(Lactate)2+",-12,5.42,0,0,1,0,0,0,2 * 1,420,2,986 * 317.05,"NIST 46.8","NIST 46.8" * 4209860,"La-Lactate+2",-6.6,3.16,0,0,2,0,0,0,2 * 1,420,1,986 * 227.978,"NIST 46.8","NIST 46.8" * 8059862,"Y-(Lactate)2+",0,6.43,0,0,1,0,0,0,2 * 1,805,2,986 * 267.054,"NIST 46.8","n.a." * 8059861,"Y-Lactate+2",0,3.64,0,0,2,0,0,0,2 * 1,805,1,986 * 177.982,"NIST 46.8","n.a." * 7509860,"Sc-Lactate+2",0,5.2,0,0,2,0,0,0,2 * 1,750,1,986 * 134.027,"NIST 46.8","n.a." * 1009861,"Ba-(Lactate)2 (aq)",0,1.13,0,0,0,0,0,0,2 * 1,100,2,986 * 315.484,"NIST 46.8","n.a." * 1009860,"Ba-Lactate+",0,.77,0,0,1,0,0,0,2 * 1,100,1,986 * 226.412,"NIST 46.8","n.a." * 8009861,"Sr-(Lactate)2 (aq)",0,1.4,0,0,0,0,0,0,2 * 1,800,2,986 * 265.764,"NIST 46.8","n.a." * 8009860,"Sr-Lactate+",0,.97,0,0,1,0,0,0,2 * 1,800,1,986 * 176.692,"NIST 46.8","n.a." * 1509861,"Ca-(Lactate)2 (aq)",0,2.48,0,0,0,0,0,0,2 * 1,150,2,986 * 218.224,"NIST 46.8","n.a." * 1509860,"Ca-Lactate+",0,1.48,0,0,1,0,0,0,2 * 1,150,1,986 * 129.152,"NIST 46.8","n.a." * 4609861,"Mg-(Lactate)2 (aq)",0,2.01,0,0,0,0,0,0,2 * 1,460,2,986 * 202.456,"NIST 46.8","n.a." * 4609860,"Mg-Lactate+",0,1.37,0,0,1,0,0,0,2 * 1,460,1,986 * 113.384,"NIST 46.8","n.a." * 1109860,"Be-Lactate+",0,1.84,0,0,1,0,0,0,2 * 1,110,1,986 * 98.084,"NIST 46.8","n.a." * 4409860,"Li-Lactate (aq)",0,.2,0,0,0,0,0,0,2 * 1,440,1,986 * 96.011,"NIST 46.8","n.a." * 3309860,"H-Lactate (aq)",.33,3.86,0,0,0,0,0,0,2 * 1,330,1,986 * 90.08,"NIST 46.8","NIST 46.8" * 309865,"AlOH-(Lactate)2 (aq)",0,2.34,0,0,0,0,0,0,4 * 1,30,2,986,-1,330,1,2 * 222.133,"NIST 46.8","n.a." * 309864,"Al(OH)2-Lactate (aq)",0,-7.03,0,0,0,0,0,0,4 * 1,30,1,986,-2,330,2,2 * 150.068,"NIST 46.8","n.a." * 309863,"AlOH-Lactate+",0,-.8,0,0,1,0,0,0,4 * 1,30,1,986,-1,330,1,2 * 133.061,"NIST 46.8","n.a." * 309862,"Al-(Lactate)3 (aq)",0,7.45,0,0,0,0,0,0,2 * 1,30,3,986 * 294.1975,"NIST 46.8","n.a." * 309861,"Al-(Lactate)2+",0,5.82,0,0,1,0,0,0,2 * 1,30,2,986 * 205.1255,"NIST 46.8","n.a." * 309860,"Al-Lactate+2",0,3.24,0,0,2,0,0,0,2 * 1,30,1,986 * 116.0535,"NIST 46.8","n.a." * 9029861,"VO-(Lactate)2 (aq)",0,5.93,0,0,0,0,0,0,2 * 1,902,2,986 * 245.083,"NIST 46.8","n.a." * 9029860,"VO-Lactate+",0,3.3,0,0,1,0,0,0,2 * 1,902,1,986 * 156.011,"NIST 46.8","n.a." * 3309841,"H-iValerate (aq)",4.93,4.781,0,0,0,0,0,0,2 * 1,330,1,984 * 102.1329,"NIST 46.6","NIST 46.6" * 2819840,"Fe-iValerate+2",16,3.31,0,0,2,0,0,0,2 * 1,281,1,984 * 156.972,"NIST 46.6","NIST 46.6" * 9509841,"Zn-iValerate+",0,1.39,0,0,1,0,0,0,2 * 1,950,1,984 * 166.515,"NIST 46.6","n.a." * 2319841,"Cu-iValerate+",0,2.08,0,0,1,0,0,0,2 * 1,231,1,984 * 164.671,"NIST 46.6","n.a." * 1509841,"Ca-iValerate+",0,.2,0,0,1,0,0,0,2 * 1,150,1,984 * 141.203,"SCD2.62","SCD2.62" * 3309851,"H-Valerate (aq)",2.8,4.843,0,0,0,0,0,0,2 * 1,330,1,985 * 102.1329,"NIST 46.6","NIST 46.6" * 2819850,"Fe-Valerate+2",13,3.51,0,0,2,0,0,0,2 * 1,281,1,985 * 156.972,"NIST 46.6","NIST 46.6" * 2319851,"Cu-Valerate+",0,2.12,0,0,1,0,0,0,2 * 1,231,1,985 * 164.671,"NIST 46.6","NIST 46.6" * 1509851,"Ca-Valerate+",0,.3,0,0,1,0,0,0,2 * 1,150,1,985 * 141.203,"SCD2.62","SCD2.62" * 1009851,"Ba-Valerate+",0,-.2,0,0,1,0,0,0,2 * 1,100,1,985 * 238.455,"SCD2.62","SCD2.62" * 3909913,"InH-Oxalate+2",0,8.16,0,0,2,0,0,0,3 * 1,390,1,991,1,330 * 203.83,"NIST 46.6","n.a." * 3909912,"In-(Oxalate)3-3",0,15.82,0,0,-3,0,0,0,2 * 1,390,3,991 * 378.83,"NIST 46.6","n.a." * 3909911,"In-(Oxalate)2-",0,13.19,0,0,-1,0,0,0,2 * 1,390,2,991 * 290.826,"NIST 46.6","n.a." * 3909910,"In-Oxalate+",0,7.3,0,0,1,0,0,0,2 * 1,390,1,991 * 202.822,"NIST 46.6","n.a." * 2909912,"Ga-(Oxalate)3-3",0,19.09,0,0,-3,0,0,0,2 * 1,290,3,991 * 333.735,"NIST 46.6","n.a." * 2909911,"Ga-(Oxalate)2-",0,14.02,0,0,-1,0,0,0,2 * 1,290,2,991 * 245.731,"NIST 46.6","n.a." * 2909910,"Ga-Oxalate+",0,7.68,0,0,1,0,0,0,2 * 1,290,1,991 * 157.727,"NIST 46.6","n.a." * 6009912,"PbH-Oxalate+",0,6.45,0,0,1,0,0,0,3 * 1,600,1,991,1,330 * 296.2019,"NIST 46.6","n.a." * 6009911,"Pb-(Oxalate)2-2",-8,7.13,0,0,-2,0,0,0,2 * 1,600,2,991 * 383.1979,"NIST 46.6","NIST 46.6" * 6009910,"Pb-Oxalate (aq)",-8,5.12,0,0,0,0,0,0,2 * 1,600,1,991 * 295.1939,"NIST 46.6","NIST 46.6" * 1609911,"Cd-(Oxalate)2-2",0,4.94,0,0,-2,0,0,0,2 * 1,160,2,991 * 288.4074,"NIST 46.6","n.a." * 1609910,"Cd-Oxalate (aq)",0,3.89,0,0,0,0,0,0,2 * 1,160,1,991 * 200.4034,"NIST 46.6","n.a." * 9509911,"Zn-(Oxalate)2-2",-6.2,7.69,0,0,-2,0,0,0,2 * 1,950,2,991 * 241.3779,"NIST 46.6","NIST 46.6" * 9509910,"Zn-Oxalate (aq)",0,4.87,0,0,0,0,0,0,2 * 1,950,1,991 * 153.3739,"NIST 46.6","n.a." * 3619910,"Hg-Oxalate (aq)",0,16.72,0,0,0,0,0,0,4 * 1,361,1,991,2,330,-2,2 * 288.5994,"NIST 46.6","n.a." * 209910,"Ag-Oxalate-",0,2.82,0,0,-1,0,0,0,2 * 1,20,1,991 * 195.872,"NIST 46.6","n.a." * 8049910,"WO3-Oxalate-2",0,14.54,0,0,-2,0,0,0,4 * 1,804,1,991,2,330,-1,2 * 319.8287,"NIST 46.6","n.a." * 9039911,"VO2-(Oxalate)2-3",0,26.89,0,0,-3,0,0,0,4 * 1,903,2,991,3,330,-2,2 * 258.947,"NIST 46.7","n.a." * 9039910,"VO2-Oxalate-",0,22.54,0,0,-1,0,0,0,4 * 1,903,1,991,3,330,-2,2 * 170.943,"NIST 46.7","n.a." * 9029911,"VO-(Oxalate)2-2",0,12.6,0,0,-2,0,0,0,2 * 1,902,2,991 * 242.947,"NIST 46.6","n.a." * 9029910,"VO-Oxalate (aq)",0,7.37,0,0,0,0,0,0,2 * 1,902,1,991 * 154.943,"NIST 46.6","n.a." * 2319911,"Cu-(Oxalate)2-2",-6.6,10.23,0,0,-2,0,0,0,2 * 1,231,2,991 * 239.554,"NIST 46.6","NIST 46.6" * 2319910,"Cu-Oxalate (aq)",-.4,5.72,0,0,0,0,0,0,2 * 1,231,1,991 * 151.55,"NIST 46.6","NIST 46.6" * 2319912,"CuH-Oxalate+",0,7,0,0,1,0,0,0,3 * 1,231,1,991,1,330 * 152.558,"SmiMa76","n.a." * 5409911,"Ni-(Oxalate)2-2",-5,8.44,0,0,-2,0,0,0,2 * 1,540,2,991 * 234.718,"NIST 46.6","NIST 46.6" * 5409910,"Ni-Oxalate (aq)",.8,5.16,0,0,0,0,0,0,2 * 1,540,1,991 * 146.714,"NIST 46.6","NIST 46.6" * 2809911,"Fe-(Oxalate)2-2",0,5.9,0,0,-2,0,0,0,2 * 1,280,2,991 * 231.855,"NIST 46.6","n.a." * 2809910,"Fe-Oxalate (aq)",0,3.97,0,0,0,0,0,0,2 * 1,280,1,991 * 143.851,"NIST 46.6","n.a." * 4709911,"Mn-(Oxalate)2-2",-.8,5.25,0,0,-2,0,0,0,2 * 1,470,2,991 * 230.946,"NIST 46.6","NIST 46.6" * 4709910,"Mn-Oxalate (aq)",5.8,3.95,0,0,0,0,0,0,2 * 1,470,1,991 * 142.942,"NIST 46.6","NIST 46.6" * 2109910,"Cr-Oxalate (aq)",0,4.71,0,0,0,0,0,0,2 * 1,210,1,991 * 140,"NIST 46.6","n.a." * 8939911,"UO2-(Oxalate)2-2",0,11.25,0,0,-2,0,0,0,2 * 1,893,2,991 * 446.0358,"NIST 46.6","n.a." * 8939910,"UO2-Oxalate (aq)",0,7.22,0,0,0,0,0,0,2 * 1,893,1,991 * 358.0318,"NIST 46.6","n.a." * 5509911,"NpO2-(Oxalate)2-3",0,6.31,0,0,-3,0,0,0,2 * 1,550,2,991 * 444.998,"NIST 46.6","n.a." * 5509910,"NpO2-Oxalate-",0,4.15,0,0,-1,0,0,0,2 * 1,550,1,991 * 356.994,"NIST 46.6","n.a." * 1709911,"Cf-(Oxalate)2-",0,11.09,0,0,-1,0,0,0,2 * 1,170,2,991 * 427.008,"NIST 46.6","n.a." * 1709910,"Cf-Oxalate+",0,6.78,0,0,1,0,0,0,2 * 1,170,1,991 * 339.004,"NIST 46.6","n.a." * 1259911,"Bk-(Oxalate)2-",0,10.86,0,0,-1,0,0,0,2 * 1,125,2,991 * 423.008,"NIST 46.6","n.a." * 1259910,"Bk-Oxalate+",0,6.73,0,0,1,0,0,0,2 * 1,125,1,991 * 335.004,"NIST 46.6","n.a." * 1909911,"Cm-(Oxalate)2-",0,10.57,0,0,-1,0,0,0,2 * 1,190,2,991 * 423.008,"NIST 46.6","n.a." * 1909910,"Cm-Oxalate+",0,6.53,0,0,1,0,0,0,2 * 1,190,1,991 * 335.004,"NIST 46.6","n.a." * 459911,"Am-(Oxalate)2-",0,10.57,0,0,-1,0,0,0,2 * 1,45,2,991 * 419.008,"NIST 46.6","n.a." * 459910,"Am-Oxalate+",0,6.53,0,0,1,0,0,0,2 * 1,45,1,991 * 331.004,"NIST 46.6","n.a." * 4509911,"Lu-(Oxalate)2-",0,11.17,0,0,-1,0,0,0,2 * 1,450,2,991 * 350.975,"NIST 46.6","n.a." * 4509910,"Lu-Oxalate+",0,6.51,0,0,1,0,0,0,2 * 1,450,1,991 * 262.971,"NIST 46.6","n.a." * 8069911,"Yb-(Oxalate)2-",0,11.44,0,0,-1,0,0,0,2 * 1,806,2,991 * 349.048,"NIST 46.6","n.a." * 8069910,"Yb-Oxalate+",0,6.72,0,0,1,0,0,0,2 * 1,806,1,991 * 261.044,"NIST 46.6","n.a." * 8809911,"Tm-(Oxalate)2-",0,11.24,0,0,-1,0,0,0,2 * 1,880,2,991 * 344.942,"NIST 46.6","n.a." * 8809910,"Tm-Oxalate+",0,6.88,0,0,1,0,0,0,2 * 1,880,1,991 * 256.938,"NIST 46.6","n.a." * 8019911,"Tb-(Oxalate)2-",0,10.97,0,0,-1,0,0,0,2 * 1,801,2,991 * 334.933,"NIST 46.6","n.a." * 8019910,"Tb-Oxalate+",0,6.73,0,0,1,0,0,0,2 * 1,801,1,991 * 246.929,"NIST 46.6","n.a." * 3109911,"Gd-(Oxalate)2-",0,10.82,0,0,-1,0,0,0,2 * 1,310,2,991 * 333.258,"NIST 46.6","n.a." * 3109910,"Gd-Oxalate+",0,6.39,0,0,1,0,0,0,2 * 1,310,1,991 * 245.254,"NIST 46.6","n.a." * 2609911,"Eu-(Oxalate)2-",0,10.76,0,0,-1,0,0,0,2 * 1,260,2,991 * 327.972,"NIST 46.6","n.a." * 2609910,"Eu-Oxalate+",0,6.52,0,0,1,0,0,0,2 * 1,260,1,991 * 239.968,"NIST 46.6","n.a." * 4209911,"La-(Oxalate)2-",0,9.55,0,0,-1,0,0,0,2 * 1,420,2,991 * 314.914,"NIST 46.6","n.a." * 4209910,"La-Oxalate+",0,5.99,0,0,1,0,0,0,2 * 1,420,1,991 * 226.91,"NIST 46.6","n.a." * 8059910,"Y-Oxalate+",0,6.74,0,0,1,0,0,0,2 * 1,805,1,991 * 176.914,"NIST 46.6","n.a." * 7509911,"Sc-(Oxalate)2-",0,13.27,0,0,-1,0,0,0,2 * 1,750,2,991 * 220.964,"NIST 46.6","n.a." * 7509910,"Sc-Oxalate+",0,9.68,0,0,1,0,0,0,2 * 1,750,1,991 * 132.96,"NIST 46.6","n.a." * 1009910,"Ba-Oxalate (aq)",0,2.33,0,0,0,0,0,0,2 * 1,100,1,991 * 225.344,"NIST 46.6","n.a." * 8009910,"Sr-Oxalate (aq)",0,2.54,0,0,0,0,0,0,2 * 1,800,1,991 * 175.624,"NIST 46.6","n.a." * 1509910,"Ca-Oxalate (aq)",0,3.19,0,0,0,0,0,0,2 * 1,150,1,991 * 128.084,"NIST 46.6","n.a." * 4609910,"Mg-Oxalate (aq)",0,3.62,0,0,0,0,0,0,2 * 1,460,1,991 * 112.316,"NIST 46.6","n.a." * 1109912,"Be-Oxalate (aq)",19,5.01,0,0,0,0,0,0,2 * 1,110,1,991 * 97.0162,"NIST 46.6","NIST 46.6" * 4909910,"NH4-Oxalate-",0,.9,0,0,-1,0,0,0,2 * 1,490,1,991 * 106.0426,"NIST 46.6","n.a." * 4109910,"K-Oxalate-",12,.8,0,0,-1,0,0,0,2 * 1,410,1,991 * 127.106,"NIST 46.6","NIST 46.6" * 5009910,"Na-Oxalate-",4,.9,0,0,-1,0,0,0,2 * 1,500,1,991 * 110.9938,"NIST 46.6","NIST 46.6" * 4409910,"Li-Oxalate-",0,1.2,0,0,-1,0,0,0,2 * 1,440,1,991 * 94.943,"NIST 46.6","n.a." * 309916,"AlH-Oxalate+2",0,7.46,0,0,2,0,0,0,3 * 1,30,1,991,1,330 * 115.9935,"NIST 46.6","n.a." * 309915,"AlOH-(Oxalate)2-2",0,6.84,0,0,-2,0,0,0,4 * 1,30,2,991,-1,330,1,2 * 219.9968,"NIST 46.6","n.a." * 309914,"Al(OH)2-Oxalate-",0,-3.12,0,0,-1,0,0,0,4 * 1,30,1,991,-2,330,2,2 * 149.0001,"NIST 46.6","n.a." * 309913,"AlOH-Oxalate",0,2.57,0,0,0,0,0,0,4 * 1,30,1,991,-1,330,1,2 * 131.9928,"NIST 46.6","n.a." * 309912,"Al-(Oxalate)3-3",16,17.09,0,0,-3,0,0,0,2 * 1,30,3,991 * 290.9935,"NIST 46.6","NIST 46.6" * 309911,"Al-(Oxalate)2-",0,13.41,0,0,-1,0,0,0,2 * 1,30,2,991 * 202.9895,"NIST 46.6","n.a." * 309910,"Al-Oxalate+",0,7.73,0,0,1,0,0,0,2 * 1,30,1,991 * 114.9855,"NIST 46.6","n.a." * 4809910,"MoO3-Oxalate-2",-59.4,14.46,0,0,-2,0,0,0,4 * 1,480,1,991,2,330,-1,2 * 231.9423,"NIST 46.6","NIST 46.6" * 2009912,"CoH-Oxalate+",0,6.31,0,0,1,0,0,0,3 * 1,200,1,991,1,330 * 147.9452,"NIST 46.6","n.a." * 2009911,"Co-(Oxalate)2-2",-3,7.15,0,0,-2,0,0,0,2 * 1,200,2,991 * 234.9412,"NIST 46.6","NIST 46.6" * 2009910,"Co-Oxalate",2,4.71,0,0,0,0,0,0,2 * 1,200,1,991 * 146.9372,"NIST 46.6","NIST 46.6" * 2819912,"Fe-(Oxalate)3-3",.4,19.83,0,0,-3,0,0,0,2 * 1,281,3,991 * 319.859,"NIST 46.6","NIST 46.6" * 2819911,"Fe-(Oxalate)2-",2,15.45,0,0,-1,0,0,0,2 * 1,281,2,991 * 231.855,"NIST 46.6","NIST 46.6" * 2819910,"Fe-Oxalate+",5.4,9.15,0,0,1,0,0,0,2 * 1,281,1,991 * 143.851,"NIST 46.6","NIST 46.6" * 8029914,"ThH-Oxalate+3",0,17.49,0,0,3,0,0,0,3 * 1,802,1,991,1,330 * 321.052,"NIST 46.6","n.a." * 8029913,"Th-(Oxalate)4-4",0,28.84,0,0,-4,0,0,0,2 * 1,802,4,991 * 584.056,"NIST 46.6","n.a." * 8029912,"Th-(Oxalate)3-2",0,25.25,0,0,-2,0,0,0,2 * 1,802,3,991 * 496.052,"NIST 46.6","n.a." * 8029911,"Th-(Oxalate)2",0,19.35,0,0,0,0,0,0,2 * 1,802,2,991 * 408.048,"NIST 46.6","n.a." * 8029910,"Th-Oxalate+2",-2,10.52,0,0,2,0,0,0,2 * 1,802,1,991 * 320.044,"NIST 46.6","NIST 46.6" * 1109911,"Be-(Oxalate)2-2",48.9,6.86,0,0,-2,0,0,0,2 * 1,110,2,991 * 185.0202,"NIST 46.6","NIST 46.6" * 1109910,"Be-Oxalate",19,5.01,0,0,0,0,0,0,2 * 1,110,1,991 * 97.0162,"NIST 46.6","NIST 46.6" * 9913301,"H2-Oxalate",9.61,5.516,0,0,0,0,0,0,2 * 1,991,2,330 * 90.02,"NIST 46.6","NIST 46.6" * 9913300,"H-Oxalate-",6.61,4.266,0,0,-1,0,0,0,2 * 1,991,1,330 * 89.012,"NIST 46.6","NIST 46.6" * 3309921,"H-Acetate (aq)",.41,4.757,0,0,0,0,0,0,2 * 1,330,1,992 * 60.0529,"NIST 46.6","NIST 46.6" * 7909921,"Sn-Acetate+",0,10.0213,0,0,1,0,0,0,4 * 1,790,-2,2,2,330,1,992 * 177.7548,"NIST46.4","NIST46.2" * 7909922,"Sn-(Acetate)2 (aq)",0,12.32,0,0,0,0,0,0,4 * 1,790,-2,2,2,330,2,992 * 236.7998,"NIST46.4","NIST46.2" * 7909923,"Sn-(Acetate)3-",0,13.55,0,0,-1,0,0,0,4 * 1,790,-2,2,2,330,3,992 * 295.8448,"NIST46.4","NIST46.2" * 6009921,"Pb-Acetate+",-.4,2.58,0,0,1,0,0,0,2 * 1,600,1,992 * 266.245,"NIST 46.6","NIST 46.6" * 6009922,"Pb-(Acetate)2 (aq)",-.8,4.02,0,0,0,0,0,0,2 * 1,600,2,992 * 325.29,"NIST 46.6","NIST 46.6" * 8709921,"Tl-Acetate (aq)",0,-.12,0,0,0,0,0,0,2 * 1,870,1,992 * 263.428,"NIST 46.6","n.a." * 9509921,"Zn-Acetate+",8.3,1.57,0,0,1,0,0,0,2 * 1,950,1,992 * 124.435,"NIST 46.6","NIST 46.6" * 9509922,"Zn-(Acetate)2 (aq)",22,1.91,0,0,0,0,0,0,2 * 1,950,2,992 * 183.48,"NIST 46.6","NIST 46.6" * 1609921,"Cd-Acetate+",9.6,1.92,0,0,1,0,0,0,2 * 1,160,1,992 * 171.455,"NIST 46.6","NIST 46.6" * 1609922,"Cd-(Acetate)2 (aq)",15,2.72,0,0,0,0,0,0,2 * 1,160,2,992 * 230.5,"NIST 46.6","NIST 46.6" * 3619920,"Hg-Acetate+",0,10.49,0,0,1,0,0,0,4 * 1,361,-2,2,2,330,1,992 * 259.6302,"NIST 46.6","n.a." * 3619921,"Hg-(Acetate)2 (aq)",0,13.83,0,0,0,0,0,0,4 * 1,361,-2,2,2,330,2,992 * 318.6752,"NIST46.4","n.a." * 2319921,"Cu-Acetate+",7.1,2.21,0,0,1,0,0,0,2 * 1,231,1,992 * 122.591,"NIST 46.6","NIST 46.6" * 2319922,"Cu-(Acetate)2 (aq)",11,3.4,0,0,0,0,0,0,2 * 1,231,2,992 * 181.636,"NIST 46.6","NIST 46.6" * 2319923,"Cu-(Acetate)3-",6.2,3.94,0,0,-1,0,0,0,2 * 1,231,3,992 * 240.681,"NIST 46.6","NIST 46.6" * 209921,"Ag-Acetate (aq)",3,.73,0,0,0,0,0,0,2 * 1,20,1,992 * 166.9132,"NIST 46.6","NIST 46.6" * 209922,"Ag-(Acetate)2-",3,.64,0,0,-1,0,0,0,2 * 1,20,2,992 * 225.9582,"NIST 46.6","NIST 46.6" * 5409921,"Ni-Acetate+",8.7,1.44,0,0,1,0,0,0,2 * 1,540,1,992 * 117.735,"NIST 46.6","NIST 46.6" * 5409922,"Ni-(Acetate)2 (aq)",10,2.4,0,0,0,0,0,0,2 * 1,540,2,992 * 176.78,"NIST 46.6","NIST 46.6" * 2009921,"Co-Acetate+",0,1.38,0,0,1,0,0,0,2 * 1,200,1,992 * 117.9782,"NIST 46.6","n.a." * 2009922,"Co-(Acetate)2 (aq)",0,.7565,0,0,0,0,0,0,2 * 1,200,2,992 * 177.0232,"NIST46.4","NIST46.2" * 2809920,"Fe-Acetate+",0,1.4,0,0,1,0,0,0,2 * 1,280,1,992 * 114.892,"NIST46.4","NIST46.2" * 2819920,"Fe-Acetate+2",25,4.24,0,0,2,0,0,0,2 * 1,281,1,992 * 114.892,"NIST 46.6","NIST 46.6" * 2819921,"Fe-(Acetate)2+",0,7.57,0,0,1,0,0,0,2 * 1,281,2,992 * 173.937,"NIST 46.6","n.a." * 2819922,"Fe-(Acetate)3 (aq)",0,9.5867,0,0,0,0,0,0,2 * 1,281,3,992 * 232.982,"NIST46.4","NIST46.2" * 4709920,"Mn-Acetate+",0,1.4,0,0,1,0,0,0,2 * 1,470,1,992 * 113.983,"NIST 46.6","NIST 46.6" * 2109921,"Cr-Acetate+",0,1.8,0,0,1,0,0,0,2 * 1,210,1,992 * 111.0411,"NIST 46.6","n.a." * 2109922,"Cr-(Acetate)2 (aq)",0,2.92,0,0,0,0,0,0,2 * 1,210,2,992 * 170.0861,"NIST 46.6","n.a." * 2119921,"Cr-Acetate+2",-89.6,15.28,0,0,2,0,0,0,4 * 1,211,-2,2,2,330,1,992 * 111.041,"NIST 46.6","NIST 46.6" * 2119922,"Cr-(Acetate)2+",0,18.26,0,0,1,0,0,0,4 * 1,211,-2,2,2,330,2,992 * 170.086,"NIST 46.6","n.a." * 2119923,"Cr-(Acetate)3 (aq)",-63,21.05,0,0,0,0,0,0,4 * 1,211,-2,2,2,330,3,992 * 229.131,"NIST 46.6","NIST46.4" * 1109921,"Be-Acetate+",0,2.05,0,0,1,0,0,0,2 * 1,110,1,992 * 68.0572,"NIST 46.6","n.a." * 1109922,"Be-(Acetate)2 (aq)",0,3,0,0,0,0,0,0,2 * 1,110,2,992 * 127.1022,"NIST 46.6","n.a." * 4609920,"Mg-Acetate+",0,1.26,0,0,1,0,0,0,2 * 1,460,1,992 * 83.35,"NIST 46.6","n.a." * 1509920,"Ca-Acetate+",4,1.18,0,0,1,0,0,0,2 * 1,150,1,992 * 99.123,"NIST 46.6","NIST 46.6" * 8009921,"Sr-Acetate+",0,1.12,0,0,1,0,0,0,2 * 1,800,1,992 * 146.665,"NIST 46.6","n.a." * 1009921,"Ba-Acetate+",0,1.07,0,0,1,0,0,0,2 * 1,100,1,992 * 196.375,"NIST 46.6","NIST 46.6" * 5009920,"Na-Acetate (aq)",8,-.12,0,0,0,0,0,0,2 * 1,500,1,992 * 82.0348,"NIST 46.6","NIST 46.6" * 4109921,"K-Acetate (aq)",4,-.27,0,0,0,0,0,0,2 * 1,410,1,992 * 98.1433,"NIST 46.6","NIST 46.6" * 309923,"Al2(OH)2-Acetate+3",0,-2.414,0,0,3,0,0,0,4 * 2,30,1,992,-2,330,2,2 * 147.0226,"NIST 46.6","n.a." * 309922,"AlOH-Acetate+",0,-.147,0,0,1,0,0,0,4 * 1,30,1,992,-1,330,1,2 * 103.0338,"NIST 46.6","n.a." * 309921,"Al-(Acetate)2+",41,4.6,0,0,1,0,0,0,2 * 1,30,2,992 * 145.0715,"NIST 46.6","NIST 46.6" * 909920,"H3BO3-Acetate-",0,-.43,0,0,-1,0,0,0,2 * 1,90,1,992 * 120.8781,"NIST 46.6","n.a." * 1609920,"Cd-(Acetate)3-",15,2.99,0,0,-1,0,0,0,2 * 1,160,3,992 * 289.5344,"NIST 46.6","NIST 46.6" * 5709920,"Pd-Acetate+",-4,4.75,0,0,1,0,0,0,2 * 1,570,1,992 * 165.465,"NIST 46.6","NIST 46.6" * 9039920,"VO2-Acetate (aq)",0,18.47,0,0,0,0,0,0,4 * 1,903,1,992,3,330,-2,2 * 141.984,"NIST 46.7","n.a." * 9029921,"VO-(Acetate)2 (aq)",19,4.17,0,0,0,0,0,0,2 * 1,902,2,992 * 185.029,"NIST 46.6","NIST 46.6" * 9029920,"VO-Acetate+",10,2.38,0,0,1,0,0,0,2 * 1,902,1,992 * 125.984,"NIST 46.6","NIST 46.6" * 8939922,"UO2-(Acetate)3-",16,7.06,0,0,-1,0,0,0,2 * 1,893,3,992 * 447.1628,"NIST 46.6","NIST 46.6" * 8939921,"UO2-(Acetate)2 (aq)",18,5.04,0,0,0,0,0,0,2 * 1,893,2,992 * 388.1178,"NIST 46.6","NIST 46.6" * 8939920,"UO2-Acetate+",21,3.11,0,0,1,0,0,0,2 * 1,893,1,992 * 329.0728,"NIST 46.6","NIST 46.6" * 5509920,"NpO2-Acetate (aq)",0,1.35,0,0,0,0,0,0,2 * 1,550,1,992 * 328.035,"NIST 46.6","n.a." * 1909921,"Cm-(Acetate)2+",0,4.42,0,0,1,0,0,0,2 * 1,190,2,992 * 365.09,"NIST 46.6","n.a." * 1909920,"Cm-Acetate+2",5.8,2.87,0,0,2,0,0,0,2 * 1,190,1,992 * 306.045,"NIST 46.6","NIST 46.6" * 459922,"Am-(Acetate)3 (aq)",0,5.51,0,0,0,0,0,0,2 * 1,45,3,992 * 420.135,"NIST 46.6","n.a." * 459921,"Am-(Acetate)2+",0,4.62,0,0,1,0,0,0,2 * 1,45,2,992 * 361.09,"NIST 46.6","n.a." * 459920,"Am-Acetate+2",6.6,2.8,0,0,2,0,0,0,2 * 1,45,1,992 * 302.045,"NIST 46.6","NIST 46.6" * 4509922,"Lu-(Acetate)3 (aq)",0,5.3,0,0,0,0,0,0,2 * 1,450,3,992 * 352.102,"NIST 46.6","n.a." * 4509921,"Lu-(Acetate)2+",0,4.23,0,0,1,0,0,0,2 * 1,450,2,992 * 293.057,"NIST 46.6","n.a." * 4509920,"Lu-Acetate+2",0,2.49,0,0,2,0,0,0,2 * 1,450,1,992 * 234.012,"NIST 46.6","n.a." * 8069922,"Yb-(Acetate)3 (aq)",27,5.43,0,0,0,0,0,0,2 * 1,806,3,992 * 350.175,"NIST 46.6","NIST 46.6" * 8069921,"Yb-(Acetate)2+",25,4.36,0,0,1,0,0,0,2 * 1,806,2,992 * 291.13,"NIST 46.6","NIST 46.6" * 8069920,"Yb-Acetate+2",14,2.56,0,0,2,0,0,0,2 * 1,806,1,992 * 232.085,"NIST 46.6","NIST 46.6" * 8809922,"Tm-(Acetate)3 (aq)",0,5.45,0,0,0,0,0,0,2 * 1,880,3,992 * 346.069,"NIST 46.6","n.a." * 8809921,"Tm-(Acetate)2+",0,4.09,0,0,1,0,0,0,2 * 1,880,2,992 * 287.024,"NIST 46.6","n.a." * 8809920,"Tm-Acetate+2",0,2.47,0,0,2,0,0,0,2 * 1,880,1,992 * 227.979,"NIST 46.6","n.a." * 2509922,"Er-(Acetate)3 (aq)",21,5.48,0,0,0,0,0,0,2 * 1,250,3,992 * 344.394,"NIST 46.6","NIST 46.6" * 2509921,"Er-(Acetate)2+",23,4.13,0,0,1,0,0,0,2 * 1,250,2,992 * 285.349,"NIST 46.6","NIST 46.6" * 2509920,"Er-Acetate+2",13,2.43,0,0,2,0,0,0,2 * 1,250,1,992 * 226.304,"NIST 46.6","NIST 46.6" * 3709922,"Ho-(Acetate)3 (aq)",18,5.55,0,0,0,0,0,0,2 * 1,370,3,992 * 342.065,"NIST 46.6","NIST 46.6" * 3709921,"Ho-(Acetate)2+",20,4.18,0,0,1,0,0,0,2 * 1,370,2,992 * 283.02,"NIST 46.6","NIST 46.6" * 3709920,"Ho-Acetate+2",13,2.45,0,0,2,0,0,0,2 * 1,370,1,992 * 223.975,"NIST 46.6","NIST 46.6" * 2409922,"Dy-(Acetate)3 (aq)",17,5.58,0,0,0,0,0,0,2 * 1,240,3,992 * 339.635,"NIST 46.6","NIST 46.6" * 2409921,"Dy-(Acetate)2+",18,4.23,0,0,1,0,0,0,2 * 1,240,2,992 * 280.59,"NIST 46.6","NIST 46.6" * 2409920,"Dy-Acetate+2",12,2.49,0,0,2,0,0,0,2 * 1,240,1,992 * 221.545,"NIST 46.6","NIST 46.6" * 8019922,"Tb-(Acetate)3 (aq)",0,5.67,0,0,0,0,0,0,2 * 1,801,3,992 * 336.06,"NIST 46.6","n.a." * 8019921,"Tb-(Acetate)2+",0,4.3,0,0,1,0,0,0,2 * 1,801,2,992 * 277.015,"NIST 46.6","n.a." * 8019920,"Tb-Acetate+2",0,2.55,0,0,2,0,0,0,2 * 1,801,1,992 * 217.97,"NIST 46.6","n.a." * 3109922,"Gd-(Acetate)3 (aq)",14,5.54,0,0,0,0,0,0,2 * 1,310,3,992 * 334.385,"NIST 46.6","NIST 46.6" * 3109921,"Gd-(Acetate)2+",13,4.54,0,0,1,0,0,0,2 * 1,310,2,992 * 275.34,"NIST 46.6","NIST 46.6" * 3109920,"Gd-Acetate+2",7.9,2.66,0,0,2,0,0,0,2 * 1,310,1,992 * 216.295,"NIST 46.6","NIST 46.6" * 2609922,"Eu-(Acetate)3 (aq)",0,5.52,0,0,0,0,0,0,2 * 1,260,3,992 * 329.099,"NIST 46.6","n.a." * 2609921,"Eu-(Acetate)2+",0,4.71,0,0,1,0,0,0,2 * 1,260,2,992 * 270.054,"NIST 46.6","n.a." * 2609920,"Eu-Acetate+2",7.1,2.77,0,0,2,0,0,0,2 * 1,260,1,992 * 211.009,"NIST 46.6","NIST 46.6" * 7809921,"Sm-(Acetate)2+",12,4.8,0,0,1,0,0,0,2 * 1,780,2,992 * 268.45,"NIST 46.6","NIST 46.6" * 7809920,"Sm-Acetate+2",6.2,2.84,0,0,2,0,0,0,2 * 1,780,1,992 * 209.405,"NIST 46.6","NIST 46.6" * 5209921,"Nd-(Acetate)2+",14,4.54,0,0,1,0,0,0,2 * 1,520,2,992 * 262.33,"NIST 46.6","NIST 46.6" * 5209920,"Nd-Acetate+2",7.1,2.67,0,0,2,0,0,0,2 * 1,520,1,992 * 203.285,"NIST 46.6","NIST 46.6" * 5859921,"Pr-(Acetate)2+",17,4.48,0,0,1,0,0,0,2 * 1,585,2,992 * 258.998,"NIST 46.6","NIST 46.6" * 5859920,"Pr-Acetate+2",7.1,2.65,0,0,2,0,0,0,2 * 1,585,1,992 * 199.953,"NIST 46.6","NIST 46.6" * 4209922,"La-(Acetate)3 (aq)",19,4.81,0,0,0,0,0,0,2 * 1,420,3,992 * 316.041,"NIST 46.6","NIST 46.6" * 4209921,"La-(Acetate)2+",15,4.12,0,0,1,0,0,0,2 * 1,420,2,992 * 256.996,"NIST 46.6","NIST 46.6" * 4209920,"La-Acetate+2",9.2,2.55,0,0,2,0,0,0,2 * 1,420,1,992 * 197.951,"NIST 46.6","NIST 46.6" * 8059921,"Y-(Acetate)2+",22,4.24,0,0,1,0,0,0,2 * 1,805,2,992 * 207,"NIST 46.6","NIST 46.6" * 8059920,"Y-Acetate+2",13,2.32,0,0,2,0,0,0,2 * 1,805,1,992 * 147.955,"NIST 46.6","NIST 46.6" * 7509920,"Sc-Acetate+2",0,4.12,0,0,2,0,0,0,2 * 1,750,1,992 * 104.001,"NIST 46.6","n.a." * 2159920,"Cs-Acetate (aq)",0,-.12,0,0,0,0,0,0,2 * 1,215,1,992 * 191.95,"NIST 46.6","n.a." * 6809920,"Rb-Acetate (aq)",0,-.16,0,0,0,0,0,0,2 * 1,680,1,992 * 144.5149,"NIST 46.6","n.a." * 4409920,"Li-Acetate (aq)",0,.28,0,0,0,0,0,0,2 * 1,440,1,992 * 65.984,"NIST 46.6","n.a." * 8029924,"Th-(Acetate)5-",38,13.04,0,0,-1,0,0,0,2 * 1,802,5,992 * 527.265,"NIST 46.6","NIST 46.6" * 8029923,"Th-(Acetate)4 (aq)",34,12.44,0,0,0,0,0,0,2 * 1,802,4,992 * 468.22,"NIST 46.6","NIST 46.6" * 8029922,"Th-(Acetate)3+",29,10.85,0,0,1,0,0,0,2 * 1,802,3,992 * 409.175,"NIST 46.6","NIST 46.6" * 8029921,"Th-(Acetate)2+2",15,8.18,0,0,2,0,0,0,2 * 1,802,2,992 * 350.13,"NIST 46.6","NIST 46.6" * 8029920,"Th-Acetate+3",11,4.69,0,0,3,0,0,0,2 * 1,802,1,992 * 291.085,"NIST 46.6","NIST 46.6" * 309920,"Al-Acetate+2",16,2.75,0,0,2,0,0,0,2 * 1,30,1,992 * 86.0265,"NIST 46.6","NIST 46.6" * 3309931,"H-Tartrate-",-.75,4.366,0,0,-1,0,0,0,2 * 1,330,1,993 * 149.0799,"NIST 46.6","NIST 46.6" * 3309932,"H2-Tartrate (aq)",-3.65,7.402,0,0,0,0,0,0,2 * 2,330,1,993 * 150.0878,"NIST 46.6","NIST 46.6" * 6009933,"PbH-(Tartrate)2-",0,8.73,0,0,-1,0,0,0,3 * 1,600,2,993,1,330 * 504.3419,"NIST 46.6","n.a." * 6009932,"PbH-Tartrate+",0,6.54,0,0,1,0,0,0,3 * 1,600,1,993,1,330 * 356.2699,"NIST 46.6","n.a." * 6009930,"Pb-(Tartrate)2-2",0,4.82,0,0,-2,0,0,0,2 * 1,600,2,993 * 503.3339,"NIST 46.6","n.a." * 7909930,"Sn-(Tartrate)2-2",0,17.86,0,0,-2,0,0,0,4 * 1,790,2,993,2,330,-1,2 * 432.8693,"NIST 46.6","n.a." * 1609934,"CdH2-(Tartrate)2 (aq)",0,10.87,0,0,0,0,0,0,3 * 1,160,2,993,2,330 * 410.5594,"NIST 46.6","n.a." * 1609933,"CdH-(Tartrate)2-",0,7.37,0,0,-1,0,0,0,3 * 1,160,2,993,1,330 * 409.5514,"NIST 46.6","n.a." * 1609930,"CdH-Tartrate+",0,5.78,0,0,1,0,0,0,3 * 1,160,1,993,1,330 * 261.4794,"NIST 46.6","n.a." * 9029930,"VO-Tartrate (aq)",0,4.77,0,0,0,0,0,0,2 * 1,902,1,993 * 215.011,"NIST 46.6","n.a." * 2319930,"Cu-(Tartrate)2-2",0,5.2,0,0,-2,0,0,0,2 * 1,231,2,993 * 359.69,"NIST 46.6","n.a." * 2109931,"CrH-Tartrate+",0,6.37,0,0,1,0,0,0,3 * 1,210,1,993,1,330 * 201.076,"NIST 46.6","n.a." * 2109930,"Cr-Tartrate (aq)",0,2.96,0,0,0,0,0,0,2 * 1,210,1,993 * 200.068,"NIST 46.6","n.a." * 4509930,"Lu-Tartrate+",0,5.61,0,0,1,0,0,0,2 * 1,450,1,993 * 323.039,"NIST 46.6","n.a." * 8069930,"Yb-Tartrate+",0,5.55,0,0,1,0,0,0,2 * 1,806,1,993 * 321.112,"NIST 46.6","n.a." * 8809930,"Tm-Tartrate+",0,5.47,0,0,1,0,0,0,2 * 1,880,1,993 * 317.006,"NIST 46.6","n.a." * 2509930,"Er-Tartrate+",0,5.43,0,0,1,0,0,0,2 * 1,250,1,993 * 315.331,"NIST 46.6","n.a." * 3709930,"Ho-Tartrate+",0,5.43,0,0,1,0,0,0,2 * 1,370,1,993 * 313.002,"NIST 46.6","n.a." * 2409930,"Dy-Tartrate+",0,5.42,0,0,1,0,0,0,2 * 1,240,1,993 * 310.572,"NIST 46.6","n.a." * 8019930,"Tb-Tartrate+",0,5.35,0,0,1,0,0,0,2 * 1,801,1,993 * 306.997,"NIST 46.6","n.a." * 3109930,"Gd-Tartrate+",0,5.44,0,0,1,0,0,0,2 * 1,310,1,993 * 305.322,"NIST 46.6","n.a." * 2609930,"Eu-Tartrate+",0,5.62,0,0,1,0,0,0,2 * 1,260,1,993 * 300.036,"NIST 46.6","n.a." * 7809930,"Sm-Tartrate+",0,5.56,0,0,1,0,0,0,2 * 1,780,1,993 * 298.432,"NIST 46.6","n.a." * 5209930,"Nd-Tartrate+",0,5.49,0,0,1,0,0,0,2 * 1,520,1,993 * 292.312,"NIST 46.6","n.a." * 5859930,"Pr-Tartrate+",0,5.37,0,0,1,0,0,0,2 * 1,585,1,993 * 288.98,"NIST 46.6","n.a." * 4209931,"La-(Tartrate)2-",46,7.59,0,0,-1,0,0,0,2 * 1,420,2,993 * 435.05,"NIST 46.6","NIST 46.6" * 4209930,"La-Tartrate+",0,4.61,0,0,1,0,0,0,2 * 1,420,1,993 * 286.978,"NIST 46.6","NIST 46.6" * 8059930,"Y-Tartrate+",0,5.32,0,0,1,0,0,0,2 * 1,805,1,993 * 236.982,"NIST 46.6","n.a." * 7509930,"Sc-Tartrate+",0,13.79,0,0,1,0,0,0,2 * 1,750,1,993 * 193.028,"NIST 46.6","n.a." * 4909930,"NH4-Tartrate-",0,.73,0,0,-1,0,0,0,2 * 1,490,1,993 * 166.1106,"NIST 46.6","n.a." * 2159930,"Cs-Tartrate-",0,.73,0,0,-1,0,0,0,2 * 1,215,1,993 * 280.977,"NIST 46.6","n.a." * 6809930,"Rb-Tartrate-",0,.73,0,0,-1,0,0,0,2 * 1,680,1,993 * 233.5419,"NIST 46.6","n.a." * 4409931,"LiH-Tartrate (aq)",0,4.99,0,0,0,0,0,0,3 * 1,440,1,993,1,330 * 156.019,"NIST 46.6","n.a." * 4409930,"Li-Tartrate-",0,1.13,0,0,-1,0,0,0,2 * 1,440,1,993 * 155.011,"NIST 46.6","n.a." * 7909931,"Sn-Tartrate (aq)",0,13.16,0,0,0,0,0,0,4 * 1,790,-2,2,2,330,1,993 * 266.7818,"NIST 46.6","n.a." * 6009931,"Pb-Tartrate (aq)",0,3.99,0,0,0,0,0,0,2 * 1,600,1,993 * 355.272,"NIST 46.6","n.a." * 309931,"Al-(Tartrate)2-",0,9.37,0,0,-1,0,0,0,2 * 1,30,2,993 * 323.1255,"NIST46.2","NIST46.2" * 8709931,"Tl-Tartrate-",0,1.43,0,0,-1,0,0,0,2 * 1,870,1,993 * 352.455,"NIST 46.6","n.a." * 9509931,"Zn-Tartrate (aq)",0,3.43,0,0,0,0,0,0,2 * 1,950,1,993 * 213.462,"NIST 46.6","n.a." * 9509932,"Zn-(Tartrate)2-2",0,5.48,0,0,-2,0,0,0,2 * 1,950,2,993 * 361.534,"NIST 46.6","n.a." * 9509933,"ZnH-Tartrate+",0,5.91,0,0,1,0,0,0,3 * 1,950,1,993,1,330 * 214.4699,"NIST 46.6","n.a." * 1609931,"Cd-Tartrate (aq)",0,2.73,0,0,0,0,0,0,2 * 1,160,1,993 * 260.482,"NIST 46.6","n.a." * 1609932,"Cd-(Tartrate)2-2",0,4.08,0,0,-2,0,0,0,2 * 1,160,2,993 * 408.554,"NIST 46.6","n.a." * 3619931,"Hg-Tartrate (aq)",0,14.06,0,0,0,0,0,0,4 * 1,361,1,993,-2,2,2,330 * 348.6572,"NIST 46.6","n.a." * 2319931,"Cu-Tartrate (aq)",0,3.97,0,0,0,0,0,0,2 * 1,231,1,993 * 211.618,"NIST 46.6","n.a." * 2319932,"CuH-Tartrate+",0,6.29,0,0,1,0,0,0,3 * 1,231,1,993,1,330 * 212.6259,"NIST 46.6","n.a." * 5409931,"Ni-Tartrate (aq)",0,3.46,0,0,0,0,0,0,2 * 1,540,1,993 * 206.762,"NIST 46.6","n.a." * 5409932,"NiH-Tartrate+",0,5.89,0,0,1,0,0,0,3 * 1,540,1,993,1,330 * 207.7699,"NIST 46.6","n.a." * 2009931,"Co-Tartrate (aq)",0,3.05,0,0,0,0,0,0,2 * 1,200,1,993 * 207.0052,"NIST 46.6","n.a." * 2009932,"Co-(Tartrate)2-2",0,4,0,0,-2,0,0,0,2 * 1,200,2,993 * 355.0772,"NIST 46.6","n.a." * 2009933,"CoH-Tartrate+",0,5.76,0,0,1,0,0,0,3 * 1,200,1,330,1,993 * 208.0131,"NIST 46.6","n.a." * 2809931,"Fe-Tartrate (aq)",0,3.11,0,0,0,0,0,0,2 * 1,280,1,993 * 203.919,"NIST 46.6","n.a." * 2819931,"Fe-Tartrate+",0,7.78,0,0,1,0,0,0,2 * 1,281,1,993 * 203.919,"NIST 46.6","n.a." * 4709931,"Mn-Tartrate (aq)",0,3.38,0,0,0,0,0,0,2 * 1,470,1,993 * 203.01,"NIST 46.6","n.a." * 4709932,"MnH-Tartrate+",0,6.01,0,0,1,0,0,0,3 * 1,470,1,993,1,330 * 204.0179,"NIST 46.6","n.a." * 4609931,"Mg-Tartrate (aq)",0,2.37,0,0,0,0,0,0,2 * 1,460,1,993 * 172.377,"NIST 46.6","n.a." * 4609932,"MgH-Tartrate+",0,5.75,0,0,1,0,0,0,3 * 1,460,1,993,1,330 * 173.3849,"NIST 46.6","n.a." * 1109931,"Be-Tartrate (aq)",0,2.82,0,0,0,0,0,0,2 * 1,110,1,993 * 157.0842,"NIST 46.6","n.a." * 1109932,"Be-(Tartrate)2-2",0,4.01,0,0,-2,0,0,0,2 * 1,110,2,993 * 305.1562,"NIST 46.6","n.a." * 1509931,"Ca-Tartrate (aq)",-8,2.8,0,0,0,0,0,0,2 * 1,150,1,993 * 188.15,"NIST 46.6","NIST 46.6" * 1509932,"CaH-Tartrate+",-8.75,5.86,0,0,1,0,0,0,3 * 1,150,1,993,1,330 * 189.1579,"NIST 46.6","NIST 46.6" * 8009931,"Sr-Tartrate (aq)",0,2.55,0,0,0,0,0,0,2 * 1,800,1,993 * 235.692,"NIST 46.6","n.a." * 8009932,"SrH-Tartrate+",0,5.9,0,0,1,0,0,0,3 * 1,800,1,330,1,993 * 236.6999,"NIST 46.6","n.a." * 1009931,"Ba-Tartrate (aq)",0,2.54,0,0,0,0,0,0,2 * 1,100,1,993 * 285.402,"NIST 46.6","n.a." * 1009932,"BaH-Tartrate+",0,5.8,0,0,1,0,0,0,3 * 1,100,1,993,1,330 * 286.4099,"NIST 46.6","n.a." * 5009931,"Na-Tartrate-",-.8,.9,0,0,-1,0,0,0,2 * 1,500,1,993 * 171.0618,"NIST 46.6","NIST 46.6" * 5009932,"NaH-Tartrate (aq)",-2.75,4.58,0,0,0,0,0,0,3 * 1,500,1,993,1,330 * 172.0697,"NIST 46.6","NIST 46.6" * 4109931,"K-Tartrate-",0,.83,0,0,-1,0,0,0,2 * 1,410,1,993 * 187.1703,"NIST 46.6","n.a." * 3309941,"H-Glycine (aq)",-44.35,9.778,0,0,0,0,0,0,2 * 1,330,1,994 * 75.0669,"NIST 46.6","NIST 46.6" * 3309942,"H2-Glycine+",-48.35,12.128,0,0,1,0,0,0,2 * 2,330,1,994 * 76.0748,"NIST 46.6","NIST 46.6" * 309942,"Al2OH-Glycine+4",0,4.56,0,0,4,0,0,0,4 * 2,30,1,994,-1,330,1,2 * 145.0293,"NIST 46.6","n.a." * 309941,"AlOH-Glycine+",0,1.94,0,0,1,0,0,0,4 * 1,30,1,994,-1,330,1,2 * 118.0478,"NIST 46.6","n.a." * 309940,"Al-Glycine+2",0,6.56,0,0,2,0,0,0,2 * 1,30,1,994 * 101.0405,"NIST 46.6","n.a." * 1159941,"BiOH-Glycine+",0,7.15,0,0,1,0,0,0,4 * 1,115,1,994,-1,330,1,2 * 300.0463,"NIST 46.6","n.a." * 1159940,"Bi-Glycine+2",0,10.81,0,0,2,0,0,0,2 * 1,115,1,994 * 283.039,"NIST 46.6","n.a." * 2909940,"Ga-Glycine+2",0,9.98,0,0,2,0,0,0,2 * 1,290,1,994 * 143.782,"NIST 46.6","n.a." * 6009944,"PbH-(Glycine)2+",0,15.26,0,0,1,0,0,0,3 * 1,600,2,994,1,330 * 356.3159,"NIST 46.6","n.a." * 6009943,"PbH2-(Glycine)2+2",0,20.87,0,0,2,0,0,0,3 * 1,600,2,994,2,330 * 357.3239,"NIST 46.6","n.a." * 6009940,"PbH-Glycine+2",-19.35,11.27,0,0,2,0,0,0,3 * 1,600,1,994,1,330 * 282.2569,"NIST 46.6","NIST 46.6" * 5709941,"PdH2-(Glycine)2+2",0,27.57,0,0,2,0,0,0,3 * 1,570,2,994,2,330 * 256.554,"NIST 46.6","n.a." * 5709940,"PdH-Glycine+2",0,15.08,0,0,2,0,0,0,3 * 1,570,1,994,1,330 * 181.487,"NIST 46.6","NIST 46.6" * 2809940,"Fe-(Glycine)3-",0,9.48,0,0,-1,0,0,0,2 * 1,280,3,994 * 278.024,"NIST 46.6","n.a." * 2109940,"Cr-Glycine+",0,4.62,0,0,1,0,0,0,2 * 1,210,1,994 * 126.055,"NIST 46.6","n.a." * 8939940,"UO2H-Glycine+2",3,11.2,0,0,2,0,0,0,3 * 1,893,1,994,1,330 * 345.0948,"NIST 46.6","NIST 46.6" * 5509941,"NpO2-(Glycine)2-",0,5.65,0,0,-1,0,0,0,2 * 1,550,2,994 * 417.108,"NIST 46.6","n.a." * 5509940,"NpO2-Glycine (aq)",0,3.53,0,0,0,0,0,0,2 * 1,550,1,994 * 343.049,"NIST 46.6","n.a." * 8029942,"ThH3-(Glycine)3+4",-123.05,34.59,0,0,4,0,0,0,3 * 1,802,3,994,3,330 * 457.241,"NIST 46.6","NIST 46.6" * 8029941,"ThH2-(Glycine)2+4",-80,23.58,0,0,4,0,0,0,3 * 1,802,2,994,2,330 * 382.174,"NIST 46.6","NIST 46.6" * 8029940,"ThH-Glycine+4",-40.25,12.23,0,0,4,0,0,0,3 * 1,802,1,994,1,330 * 307.107,"NIST 46.6","NIST 46.6" * 4509940,"Lu-Glycine+2",0,4.55,0,0,2,0,0,0,2 * 1,450,1,994 * 249.026,"NIST 46.6","n.a." * 8069940,"Yb-Glycine+2",0,4.55,0,0,2,0,0,0,2 * 1,806,1,994 * 247.099,"NIST 46.6","n.a." * 2509940,"Er-Glycine+2",0,4.35,0,0,2,0,0,0,2 * 1,250,1,994 * 241.318,"NIST 46.6","n.a." * 3709940,"Ho-Glycine+2",0,4.35,0,0,2,0,0,0,2 * 1,370,1,994 * 238.989,"NIST 46.6","n.a." * 2409940,"Dy-Glycine+2",0,4.25,0,0,2,0,0,0,2 * 1,240,1,994 * 236.559,"NIST 46.6","n.a." * 8019940,"Tb-Glycine+2",0,4.25,0,0,2,0,0,0,2 * 1,801,1,994 * 232.984,"NIST 46.6","n.a." * 3109941,"GdH-Glycine+3",0,10.5,0,0,3,0,0,0,3 * 1,310,1,994,1,330 * 232.317,"NIST 46.6","n.a." * 3109940,"Gd-Glycine+2",0,4.05,0,0,2,0,0,0,2 * 1,310,1,994 * 231.309,"NIST 46.6","n.a." * 2609940,"Eu-Glycine+2",0,4.15,0,0,2,0,0,0,2 * 1,260,1,994 * 226.023,"NIST 46.6","n.a." * 7809940,"Sm-Glycine+2",0,4.15,0,0,2,0,0,0,2 * 1,780,1,994 * 224.419,"NIST 46.6","n.a." * 5859940,"Pr-Glycine+2",0,3.95,0,0,2,0,0,0,2 * 1,585,1,994 * 214.967,"NIST 46.6","n.a." * 4209940,"La-Glycine+2",0,3.75,0,0,2,0,0,0,2 * 1,420,1,994 * 212.965,"NIST 46.6","n.a." * 5209942,"NdH-Glycine+3",0,10.7,0,0,3,0,0,0,3 * 1,520,1,994,1,330 * 219.307,"NIST 46.6","n.a." * 5209941,"NdOH-Glycine+",0,-4.1,0,0,1,0,0,0,4 * 1,520,1,994,-1,330,1,2 * 235.3063,"NIST 46.6","n.a." * 5209940,"Nd-Glycine+2",0,3.91,0,0,2,0,0,0,2 * 1,520,1,994 * 218.299,"NIST 46.6","n.a." * 8059940,"Y-Glycine+2",0,4.15,0,0,2,0,0,0,2 * 1,805,1,994 * 162.969,"NIST 46.6","n.a." * 4609940,"MgH-Glycine+2",0,10.15,0,0,2,0,0,0,3 * 1,460,1,994,1,330 * 99.379,"NIST 46.6","n.a." * 5009940,"Na-Glycine (aq)",0,-.6,0,0,0,0,0,0,2 * 1,500,1,994 * 97.0488,"NIST 46.6","n.a." * 9029947,"VOOH-(Glycine)2-",0,4.51,0,0,-1,0,0,0,4 * 1,902,2,994,-1,330,1,2 * 232.0643,"NIST 46.6","n.a." * 9029946,"VO(OH)2-Glycine-",0,-6.09,0,0,-1,0,0,0,4 * 1,902,1,994,-2,330,2,2 * 175.0126,"NIST 46.6","n.a." * 9029945,"VOOH-Glycine (aq)",0,1.82,0,0,0,0,0,0,4 * 1,902,1,994,-1,330,1,2 * 158.0053,"NIST 46.6","n.a." * 9029944,"VOH-(Glycine)2+",0,17.24,0,0,1,0,0,0,3 * 1,902,2,994,1,330 * 216.065,"NIST 46.6","n.a." * 9029943,"VOH2-(Glycine)2+2",-85.7,21.57,0,0,2,0,0,0,3 * 1,902,2,994,2,330 * 217.073,"NIST 46.6","NIST 46.6" * 9029942,"VOH-Glycine+2",-39.75,10.79,0,0,2,0,0,0,3 * 1,902,1,994,1,330 * 142.006,"NIST 46.6","NIST 46.6" * 9029941,"VO-(Glycine)2 (aq)",0,12.53,0,0,0,0,0,0,2 * 1,902,2,994 * 215.057,"NIST 46.6","n.a." * 9029940,"VO-Glycine+",0,6.92,0,0,1,0,0,0,2 * 1,902,1,994 * 140.998,"NIST 46.6","n.a." * 6009941,"Pb-Glycine+",-20,5.15,0,0,1,0,0,0,2 * 1,600,1,994 * 281.259,"NIST 46.6","NIST 46.6" * 6009942,"Pb-(Glycine)2 (aq)",0,8.36,0,0,0,0,0,0,2 * 1,600,2,994 * 355.318,"NIST 46.6","n.a." * 8709941,"Tl-Glycine (aq)",0,1.73,0,0,0,0,0,0,2 * 1,870,1,994 * 278.442,"NIST 46.6","n.a." * 9509941,"Zn-Glycine+",-11,5.38,0,0,1,0,0,0,2 * 1,950,1,994 * 139.449,"NIST 46.6","NIST 46.6" * 9509942,"Zn-(Glycine)2 (aq)",-25,9.81,0,0,0,0,0,0,2 * 1,950,2,994 * 213.508,"NIST 46.6","NIST 46.6" * 9509943,"Zn-(Glycine)3-",-39,12.3,0,0,-1,0,0,0,2 * 1,950,3,994 * 287.567,"NIST 46.6","NIST 46.6" * 1609941,"Cd-Glycine+",-8.7,4.69,0,0,1,0,0,0,2 * 1,160,1,994 * 186.469,"NIST 46.6","NIST 46.6" * 1609942,"Cd-(Glycine)2 (aq)",-22,8.4,0,0,0,0,0,0,2 * 1,160,2,994 * 260.528,"NIST 46.6","NIST 46.6" * 1609943,"Cd-(Glycine)3-",-35,10.7,0,0,-1,0,0,0,2 * 1,160,3,994 * 334.587,"NIST 46.6","NIST 46.6" * 3619941,"Hg-Glycine+",0,17.03,0,0,1,0,0,0,4 * 1,361,1,994,-2,2,2,330 * 274.6442,"NIST 46.6","n.a." * 3619942,"Hg-(Glycine)2 (aq)",0,26.25,0,0,0,0,0,0,4 * 1,361,2,994,-2,2,2,330 * 348.7032,"NIST 46.6","n.a." * 2309941,"Cu-(Glycine)2-",0,10.3,0,0,-1,0,0,0,2 * 1,230,2,994 * 211.664,"NIST46.2","NIST46.2" * 2319941,"Cu-Glycine+",-25,8.56,0,0,1,0,0,0,2 * 1,231,1,994 * 137.605,"NIST 46.6","NIST 46.6" * 2319942,"Cu-(Glycine)2 (aq)",-54.3,15.7,0,0,0,0,0,0,2 * 1,231,2,994 * 211.664,"NIST 46.6","NIST 46.6" * 209941,"Ag-Glycine (aq)",-19,3.51,0,0,0,0,0,0,2 * 1,20,1,994 * 181.9272,"NIST 46.6","NIST 46.6" * 209942,"Ag-(Glycine)2-",-48.1,6.89,0,0,-1,0,0,0,2 * 1,20,2,994 * 255.9862,"NIST 46.6","NIST 46.6" * 5409941,"Ni-Glycine+",-18,6.15,0,0,1,0,0,0,2 * 1,540,1,994 * 132.749,"NIST 46.6","NIST 46.6" * 5409942,"Ni-(Glycine)2 (aq)",-38,11.12,0,0,0,0,0,0,2 * 1,540,2,994 * 206.808,"NIST 46.6","NIST 46.6" * 5409943,"Ni-(Glycine)3-",-62.3,14.6,0,0,-1,0,0,0,2 * 1,540,3,994 * 280.867,"NIST 46.6","NIST 46.6" * 2009941,"Co-Glycine+",-12,5.07,0,0,1,0,0,0,2 * 1,200,1,994 * 132.9922,"NIST 46.6","NIST 46.6" * 2009942,"Co-(Glycine)2 (aq)",-26,9.07,0,0,0,0,0,0,2 * 1,200,2,994 * 207.0512,"NIST 46.6","NIST 46.6" * 2009943,"Co-(Glycine)3-",-41,11.6,0,0,-1,0,0,0,2 * 1,200,3,994 * 281.1102,"NIST 46.6","NIST 46.6" * 2009944,"CoOH-Glycine (aq)",0,-5.01,0,0,0,0,0,0,4 * 1,200,1,994,1,2,-1,330 * 149.9996,"NIST 46.6","n.a." * 2809941,"Fe-Glycine+",-15,4.31,0,0,1,0,0,0,2 * 1,280,1,994 * 129.906,"NIST 46.6","NIST 46.6" * 2809942,"Fe-(Glycine)2 (aq)",0,8.31,0,0,0,0,0,0,2 * 1,280,2,994 * 203.965,"NIST 46.6","n.a." * 2819941,"Fe-Glycine+2",0,9.38,0,0,2,0,0,0,2 * 1,281,1,994 * 129.906,"NIST 46.6","n.a." * 2819942,"FeH-Glycine+3",0,11.5,0,0,3,0,0,0,3 * 1,281,1,994,1,330 * 130.9139,"NIST 46.6","n.a." * 4709941,"Mn-Glycine+",-1,3.19,0,0,1,0,0,0,2 * 1,470,1,994 * 128.997,"NIST 46.6","NIST 46.6" * 4709942,"Mn-(Glycine)2 (aq)",0,5.46,0,0,0,0,0,0,2 * 1,470,2,994 * 203.056,"NIST 46.6","n.a." * 2119941,"Cr-Glycine+2",0,18.7,0,0,2,0,0,0,4 * 1,211,1,994,-2,2,2,330 * 126.055,"SCD2.62","SCD2.62" * 2119942,"Cr-(Glycine)2+",0,25.6,0,0,1,0,0,0,4 * 1,211,2,994,-2,2,2,330 * 200.114,"SCD2.62","SCD2.62" * 2119943,"Cr-(Glycine)3 (aq)",0,31.6,0,0,0,0,0,0,4 * 1,211,3,994,-2,2,2,330 * 274.173,"SCD2.62","SCD2.62" * 4609941,"Mg-Glycine+",25,2.08,0,0,1,0,0,0,2 * 1,460,1,994 * 98.364,"NIST 46.6","NIST 46.6" * 1509941,"Ca-Glycine+",-4,1.39,0,0,1,0,0,0,2 * 1,150,1,994 * 114.137,"NIST 46.6","NIST 46.6" * 1509942,"CaH-Glycine+2",-36.35,10.07,0,0,2,0,0,0,3 * 1,150,1,994,1,330 * 115.1449,"NIST 46.6","NIST 46.6" * 8009941,"Sr-Glycine+",0,.91,0,0,1,0,0,0,2 * 1,800,1,994 * 161.679,"NIST 46.6","n.a." * 1009941,"Ba-Glycine+",0,.77,0,0,1,0,0,0,2 * 1,100,1,994 * 211.389,"NIST 46.6","n.a." * 3309951,"H-Sal-",-35.7,13.7,0,0,-1,0,0,0,2 * 1,330,1,995 * 137.1149,"NIST 46.6","NIST 46.6" * 3309952,"H2-Sal (aq)",-38.7,16.672,0,0,0,0,0,0,2 * 2,330,1,995 * 138.1228,"NIST 46.6","NIST 46.6" * 9509951,"Zn-Sal (aq)",0,7.63,0,0,0,0,0,0,2 * 1,950,1,995 * 201.497,"NIST 46.6","n.a." * 1609951,"Cd-Sal (aq)",0,6.33,0,0,0,0,0,0,2 * 1,160,1,995 * 248.517,"NIST 46.6","n.a." * 2319951,"Cu-Sal (aq)",-18.7,11.35,0,0,0,0,0,0,2 * 1,231,1,995 * 199.653,"NIST 46.6","NIST 46.6" * 2319952,"Cu-(Sal)2-2",0,19.62,0,0,-2,0,0,0,2 * 1,231,2,995 * 335.76,"NIST 46.6","n.a." * 5409951,"Ni-Sal (aq)",0,8.13,0,0,0,0,0,0,2 * 1,540,1,995 * 194.797,"NIST 46.6","n.a." * 5409952,"Ni-(Sal)2-2",0,12.6,0,0,-2,0,0,0,2 * 1,540,2,995 * 330.904,"NIST 46.6","n.a." * 2009951,"Co-Sal (aq)",0,7.93,0,0,0,0,0,0,3 * 1,200,0,330,1,995 * 195.0402,"NIST 46.6","n.a." * 2009952,"Co-(Sal)2-2",0,12.3,0,0,-2,0,0,0,3 * 1,200,0,330,2,995 * 331.1472,"NIST 46.6","n.a." * 2809951,"Fe-Sal (aq)",0,7.33,0,0,0,0,0,0,2 * 1,280,1,995 * 191.954,"NIST 46.6","n.a." * 2809952,"Fe-(Sal)2-2",0,11.7,0,0,-2,0,0,0,2 * 1,280,2,995 * 328.061,"NIST 46.6","n.a." * 2819951,"Fe-Sal+",-23.7,17.55,0,0,1,0,0,0,2 * 1,281,1,995 * 191.954,"NIST 46.6","NIST 46.6" * 2819952,"Fe-(Sal)2-",0,29.55,0,0,-1,0,0,0,2 * 1,281,2,995 * 328.061,"NIST 46.6","n.a." * 4709951,"Mn-Sal (aq)",0,6.63,0,0,0,0,0,0,2 * 1,470,1,995 * 191.045,"NIST 46.6","n.a." * 4709952,"Mn-(Sal)2-2",0,10.2,0,0,-2,0,0,0,2 * 1,470,2,995 * 327.152,"NIST 46.6","n.a." * 1109951,"Be-Sal (aq)",-31.7,13.5,0,0,0,0,0,0,3 * 1,110,0,330,1,995 * 145.1192,"NIST 46.6","NIST 46.6" * 1109952,"Be-(Sal)2-2",0,23.37,0,0,-2,0,0,0,3 * 1,110,0,330,2,995 * 281.2262,"NIST 46.6","n.a." * 4609951,"Mg-Sal (aq)",0,5.76,0,0,0,0,0,0,2 * 1,460,1,995 * 160.412,"NIST 46.6","n.a." * 4609952,"MgH-Sal+",-26.5,14.1,0,0,1,0,0,0,3 * 1,460,1,995,1,330 * 161.4199,"NIST 46.6","NIST 46.6" * 1509951,"Ca-Sal (aq)",0,4.05,0,0,0,0,0,0,2 * 1,150,1,995 * 176.185,"NIST 46.6","n.a." * 1509952,"CaH-Sal+",-29.5,14.2,0,0,1,0,0,0,3 * 1,150,1,995,1,330 * 177.1929,"NIST 46.6","NIST 46.6" * 1009951,"BaH-Sal+",0,14,0,0,1,0,0,0,3 * 1,100,1,995,1,330 * 274.4449,"NIST 46.6","n.a." * 2909951,"GaH-Sal+2",0,16.24,0,0,2,0,0,0,3 * 1,290,1,995,1,330 * 206.838,"NIST 46.6","n.a." * 2909950,"Ga-Sal+",0,15.28,0,0,1,0,0,0,2 * 1,290,1,995 * 205.83,"NIST 46.6","n.a." * 309954,"Al2(OH)2-(Sal)2 (aq)",0,48.46,0,0,0,0,0,0,4 * 2,30,2,995,-2,330,2,2 * 360.1916,"NIST 46.6","n.a." * 309953,"Al(OH)2-(Sal)2-3",0,35.52,0,0,-3,0,0,0,4 * 1,30,2,995,-2,330,2,2 * 333.2101,"NIST 46.6","n.a." * 309952,"AlOH-(Sal)2-2",0,31.62,0,0,-2,0,0,0,4 * 1,30,2,995,-1,330,1,2 * 316.2028,"NIST 46.6","n.a." * 309951,"Al-(Sal)2-",0,25.18,0,0,-1,0,0,0,2 * 1,30,2,995 * 299.1955,"NIST 46.6","n.a." * 309950,"Al-Sal+",0,14.37,0,0,1,0,0,0,2 * 1,30,1,995 * 163.0885,"NIST 46.6","n.a." * 2819950,"FeH-Sal+2",0,18.74,0,0,2,0,0,0,3 * 1,281,1,995,1,330 * 192.962,"NIST 46.6","n.a." * 8939952,"UO2H-Sal+",0,15.74,0,0,1,0,0,0,3 * 1,893,1,995,1,330 * 407.1428,"NIST 46.6","n.a." * 8939951,"UO2-(Sal)2-2",0,23.4,0,0,-2,0,0,0,2 * 1,893,2,995 * 542.2418,"NIST 46.6","n.a." * 8939950,"UO2-Sal (aq)",0,13.13,0,0,0,0,0,0,2 * 1,893,1,995 * 406.1348,"NIST 46.6","n.a." * 4509951,"LuH2-(Sal)2+",-62.2,32.17,0,0,1,0,0,0,3 * 1,450,2,995,2,330 * 449.197,"NIST 46.6","NIST 46.6" * 4509950,"LuH-Sal+2",-32.7,16.04,0,0,2,0,0,0,3 * 1,450,1,995,1,330 * 312.082,"NIST 46.6","NIST 46.6" * 8069951,"YbH2-(Sal)2+",-53.4,31.97,0,0,1,0,0,0,3 * 1,806,2,995,2,330 * 447.27,"NIST 46.6","NIST 46.6" * 8069950,"YbH-Sal+2",-33.7,16.14,0,0,2,0,0,0,3 * 1,806,1,995,1,330 * 310.155,"NIST 46.6","NIST 46.6" * 8809951,"TmH2-(Sal)2+",-63.9,32.17,0,0,1,0,0,0,3 * 1,880,2,995,2,330 * 443.164,"NIST 46.6","NIST 46.6" * 8809950,"TmH-Sal+2",-32.7,16.14,0,0,2,0,0,0,3 * 1,880,1,995,1,330 * 306.049,"NIST 46.6","NIST 46.6" * 2509951,"ErH2-(Sal)2+",-65.6,32.07,0,0,1,0,0,0,3 * 1,250,2,995,2,330 * 441.489,"NIST 46.6","NIST 46.6" * 2509950,"ErH-Sal+2",-32.7,16.14,0,0,2,0,0,0,3 * 1,250,1,995,1,330 * 304.374,"NIST 46.6","NIST 46.6" * 3709951,"HoH2-(Sal)2+",-64.3,32.27,0,0,1,0,0,0,3 * 1,370,2,995,2,330 * 439.16,"NIST 46.6","NIST 46.6" * 3709950,"HoH-Sal+2",-33.7,16.14,0,0,2,0,0,0,3 * 1,370,1,995,1,330 * 302.045,"NIST 46.6","NIST 46.6" * 2409951,"DyH2-(Sal)2+",-62.2,32.27,0,0,1,0,0,0,3 * 1,240,2,995,2,330 * 436.73,"NIST 46.6","NIST 46.6" * 2409950,"DyH-Sal+2",-32.7,16.04,0,0,2,0,0,0,3 * 1,240,1,995,1,330 * 299.615,"NIST 46.6","NIST 46.6" * 8019951,"TbH2-(Sal)2+",-66.8,32.37,0,0,1,0,0,0,3 * 1,801,2,995,2,330 * 433.155,"NIST 46.6","NIST 46.6" * 8019950,"TbH-Sal+2",-33.7,16.24,0,0,2,0,0,0,3 * 1,801,1,995,1,330 * 296.04,"NIST 46.6","NIST 46.6" * 3109951,"GdH2-(Sal)2+",-65.6,32.27,0,0,1,0,0,0,3 * 1,310,2,995,2,330 * 431.48,"NIST 46.6","NIST 46.6" * 3109950,"GdH-Sal+2",-33.7,16.24,0,0,2,0,0,0,3 * 1,310,1,995,1,330 * 294.365,"NIST 46.6","NIST 46.6" * 2609951,"EuH2-(Sal)2+",-65.6,32.27,0,0,1,0,0,0,3 * 1,260,2,995,2,330 * 426.194,"NIST 46.6","NIST 46.6" * 2609950,"EuH-Sal+2",-34.7,16.34,0,0,2,0,0,0,3 * 1,260,1,995,1,330 * 289.079,"NIST 46.6","NIST 46.6" * 7809951,"SmH2-(Sal)2+",-68.4,32.27,0,0,1,0,0,0,3 * 1,780,2,995,2,330 * 424.59,"NIST 46.6","NIST 46.6" * 7809950,"SmH-Sal+2",-34.9,16.44,0,0,2,0,0,0,3 * 1,780,1,995,1,330 * 287.475,"NIST 46.6","NIST 46.6" * 5209951,"NdH2-(Sal)2+",-65.6,32.07,0,0,1,0,0,0,3 * 1,520,2,995,2,330 * 418.47,"NIST 46.6","NIST 46.6" * 5209950,"NdH-Sal+2",-34.7,16.24,0,0,2,0,0,0,3 * 1,520,1,995,1,330 * 281.355,"NIST 46.6","NIST 46.6" * 5859951,"PrH2-(Sal)2+",-67.3,32.17,0,0,1,0,0,0,3 * 1,585,2,995,2,330 * 415.138,"NIST 46.6","NIST 46.6" * 5859950,"PrH-Sal+2",-33.7,16.24,0,0,2,0,0,0,3 * 1,585,1,995,1,330 * 278.023,"NIST 46.6","NIST 46.6" * 4209951,"LaH2-(Sal)2+",-66.4,32.07,0,0,1,0,0,0,3 * 1,420,2,995,2,330 * 413.136,"NIST 46.6","NIST 46.6" * 4209950,"LaH-Sal+2",-33.7,15.78,0,0,2,0,0,0,3 * 1,420,1,995,1,330 * 276.021,"NIST 46.6","NIST 46.6" * 1109955,"BeH-(Sal)2-",0,28.71,0,0,-1,0,0,0,3 * 1,110,2,995,1,330 * 282.2342,"NIST 46.6","n.a." * 1109954,"BeOH-Sal-",0,6.19,0,0,-1,0,0,0,4 * 1,110,1,995,-1,330,1,2 * 162.1265,"NIST 46.6","n.a." * 1109953,"BeH2-(Sal)2 (aq)",0,31.81,0,0,0,0,0,0,3 * 1,110,2,995,2,330 * 283.2422,"NIST 46.6","n.a." * 1109950,"BeH-Sal+",0,15.7,0,0,1,0,0,0,3 * 1,110,1,995,1,330 * 146.1272,"NIST 46.6","n.a." * 4109950,"KH-Sal (aq)",0,13.41,0,0,0,0,0,0,3 * 1,410,1,995,1,330 * 176.217,"NIST 46.6","n.a." * 5009950,"NaH-Sal (aq)",0,13.41,0,0,0,0,0,0,3 * 1,500,1,995,1,330 * 160.1048,"NIST 46.6","n.a." * 9029953,"VOOH-(Sal)2-3",0,10.73,0,0,-3,0,0,0,4 * 1,902,2,995,-1,330,1,2 * 356.1603,"NIST 46.6","n.a." * 9029952,"VOOH-Sal-",0,6.89,0,0,-1,0,0,0,4 * 1,902,1,995,-1,330,1,2 * 220.0533,"NIST 46.6","n.a." * 9029951,"VO-(Sal)2-2",0,21.02,0,0,-2,0,0,0,2 * 1,902,2,995 * 339.153,"NIST 46.6","n.a." * 9029950,"VO-Sal (aq)",-10.7,13.71,0,0,0,0,0,0,2 * 1,902,1,995 * 203.046,"NIST 46.6","NIST 46.6" * 8029953,"ThH4-(Sal)4 (aq)",0,68.56,0,0,0,0,0,0,3 * 1,802,4,995,4,330 * 780.5,"NIST 46.6","n.a." * 8029952,"ThH3-(Sal)3+",0,53.08,0,0,1,0,0,0,3 * 1,802,3,995,3,330 * 643.385,"NIST 46.6","n.a." * 8029951,"ThH2-(Sal)2+2",0,36.5,0,0,2,0,0,0,3 * 1,802,2,995,2,330 * 506.27,"NIST 46.6","n.a." * 8029950,"ThH-Sal+3",0,18.81,0,0,3,0,0,0,3 * 1,802,1,995,1,330 * 369.155,"NIST 46.6","n.a." * 3309961,"H-Glutamate-",-40,9.96,0,0,-1,0,0,0,2 * 1,330,1,996 * 146.1229,"NIST 46.6","NIST 46.6" * 3309962,"H2-Glutamate (aq)",-43,14.26,0,0,0,0,0,0,2 * 2,330,1,996 * 147.1308,"NIST 46.6","NIST 46.6" * 3309963,"H3-Glutamate+",-46,16.42,0,0,1,0,0,0,2 * 3,330,1,996 * 148.1387,"NIST 46.6","NIST 46.6" * 2909960,"Ga-Glutamate+",0,12.44,0,0,1,0,0,0,2 * 1,290,1,996 * 214.838,"NIST 46.6","n.a." * 309963,"Al2-Glutamate+4",0,10.13,0,0,4,0,0,0,2 * 2,30,1,996 * 199.078,"NIST 46.6","n.a." * 309962,"AlOH-Glutamate (aq)",0,3.85,0,0,0,0,0,0,4 * 1,30,1,996,-1,330,1,2 * 189.1038,"NIST 46.6","n.a." * 309960,"Al-Glutamate+",0,8.58,0,0,1,0,0,0,2 * 1,30,1,996 * 172.0965,"NIST 46.6","n.a." * 2819960,"Fe-Glutamate+",0,13.39,0,0,1,0,0,0,2 * 1,281,1,996 * 200.962,"NIST 46.6","n.a." * 2809960,"Fe-Glutamate (aq)",0,4.44,0,0,0,0,0,0,2 * 1,280,1,996 * 200.962,"NIST 46.6","n.a." * 2109962,"CrH-Glutamate+",0,11.84,0,0,1,0,0,0,3 * 1,210,1,996,1,330 * 198.119,"NIST 46.6","n.a." * 2109961,"Cr-(Glutamate)2-2",0,8.31,0,0,-2,0,0,0,2 * 1,210,2,996 * 342.226,"NIST 46.6","n.a." * 2109960,"Cr-Glutamate (aq)",0,5.45,0,0,0,0,0,0,2 * 1,210,1,996 * 197.111,"NIST 46.6","n.a." * 8939960,"UO2H-Glutamate+",0,13.06,0,0,1,0,0,0,3 * 1,893,1,996,1,330 * 416.1508,"NIST 46.6","n.a." * 6009961,"Pb-Glutamate (aq)",0,5.63,0,0,0,0,0,0,2 * 1,600,1,996 * 352.315,"NIST 46.6","n.a." * 6009962,"Pb-(Glutamate)2-2",0,7.62,0,0,-2,0,0,0,2 * 1,600,2,996 * 497.43,"NIST 46.6","n.a." * 6009963,"PbH-Glutamate+",0,12.34,0,0,1,0,0,0,3 * 1,600,1,996,1,330 * 353.3229,"NIST 46.6","n.a." * 309961,"AlH-Glutamate+2",0,11.98,0,0,2,0,0,0,3 * 1,30,1,996,1,330 * 173.1044,"NIST 46.6","n.a." * 9509961,"Zn-Glutamate (aq)",0,5.62,0,0,0,0,0,0,2 * 1,950,1,996 * 210.505,"NIST 46.6","n.a." * 9509962,"Zn-(Glutamate)2-2",0,9.33,0,0,-2,0,0,0,2 * 1,950,2,996 * 355.62,"NIST 46.6","n.a." * 1609961,"Cd-Glutamate (aq)",0,4.67,0,0,0,0,0,0,2 * 1,160,1,996 * 257.525,"NIST 46.6","n.a." * 1609962,"Cd-(Glutamate)2-2",0,7.59,0,0,-2,0,0,0,2 * 1,160,2,996 * 402.64,"NIST 46.6","n.a." * 3619961,"Hg-Glutamate (aq)",0,19.8,0,0,0,0,0,0,4 * 1,361,1,996,-2,2,2,330 * 345.7002,"SCD2.62","SCD2.62" * 3619962,"Hg-(Glutamate)2-2",0,26.2,0,0,-2,0,0,0,4 * 1,361,2,996,-2,2,2,330 * 490.8152,"SCD2.62","SCD2.62" * 2319961,"Cu-Glutamate (aq)",-20,9.19,0,0,0,0,0,0,2 * 1,231,1,996 * 208.661,"NIST 46.6","NIST 46.6" * 2319962,"Cu-(Glutamate)2-2",-48.1,15.78,0,0,-2,0,0,0,2 * 1,231,2,996 * 353.776,"NIST 46.6","NIST 46.6" * 2319963,"CuH-Glutamate+",-28,13.28,0,0,1,0,0,0,3 * 1,231,1,996,1,330 * 209.6689,"NIST 46.6","NIST 46.6" * 209961,"Ag-Glutamate-",0,4.22,0,0,-1,0,0,0,2 * 1,20,1,996 * 252.9832,"NIST 46.6","n.a." * 5409961,"Ni-Glutamate (aq)",0,6.48,0,0,0,0,0,0,2 * 1,540,1,996 * 203.805,"NIST 46.6","n.a." * 5409962,"Ni-(Glutamate)2-2",-30,10.68,0,0,-2,0,0,0,2 * 1,540,2,996 * 348.92,"NIST 46.6","NIST 46.6" * 2009961,"Co-Glutamate (aq)",0,5.43,0,0,0,0,0,0,2 * 1,200,1,996 * 204.0482,"NIST 46.6","n.a." * 2009962,"Co-(Glutamate)2-2",0,8.72,0,0,-2,0,0,0,2 * 1,200,2,996 * 349.1632,"NIST 46.6","n.a." * 4709961,"Mn-Glutamate (aq)",0,4.95,0,0,0,0,0,0,2 * 1,470,1,996 * 200.053,"SCD2.62","SCD2.62" * 4709962,"Mn-(Glutamate)2-2",0,8.48,0,0,-2,0,0,0,2 * 1,470,2,996 * 345.168,"SCD2.62","SCD2.62" * 2119961,"Cr-Glutamate+",0,22.6,0,0,1,0,0,0,4 * 1,211,1,996,-2,2,2,330 * 197.111,"SCD2.62","SCD2.62" * 2119962,"Cr-(Glutamate)2-",0,30.7,0,0,-1,0,0,0,4 * 1,211,2,996,-2,2,2,330 * 342.226,"SCD2.62","SCD2.62" * 2119963,"CrH-Glutamate+2",0,25.2,0,0,2,0,0,0,4 * 1,211,1,996,-2,2,3,330 * 198.1189,"SCD2.62","SCD2.62" * 4609961,"Mg-Glutamate (aq)",0,2.77,0,0,0,0,0,0,2 * 1,460,1,996 * 169.42,"NIST 46.6","n.a." * 1509961,"Ca-Glutamate (aq)",0,2.06,0,0,0,0,0,0,2 * 1,150,1,996 * 185.193,"NIST 46.6","n.a." * 1509962,"CaH-Glutamate+",0,11.13,0,0,1,0,0,0,3 * 1,150,1,996,1,330 * 186.2009,"NIST 46.6","n.a." * 8009961,"Sr-Glutamate (aq)",0,2.24,0,0,0,0,0,0,2 * 1,800,1,996 * 232.735,"NIST 46.6","n.a." * 1009961,"Ba-Glutamate (aq)",0,2.15,0,0,0,0,0,0,2 * 1,100,1,996 * 282.445,"NIST 46.6","n.a." * 3309971,"H-Phthalate-",2.1,5.411,0,0,-1,0,0,0,2 * 1,330,1,997 * 165.1249,"NIST 46.6","NIST 46.6" * 3309972,"H2-Phthalate (aq)",4.7,8.361,0,0,0,0,0,0,2 * 2,330,1,997 * 166.1328,"NIST 46.6","NIST 46.6" * 6009971,"Pb-Phthalate (aq)",0,3.59,0,0,0,0,0,0,2 * 1,600,1,997 * 371.317,"NIST 46.6","n.a." * 6009972,"Pb-(Phthalate)2-2",0,4.82,0,0,-2,0,0,0,2 * 1,600,2,997 * 535.434,"NIST 46.6","n.a." * 6009973,"PbH-Phthalate+",0,6.98,0,0,1,0,0,0,3 * 1,600,1,997,1,330 * 372.3249,"NIST 46.6","n.a." * 309971,"Al-Phthalate+",0,4.55,0,0,1,0,0,0,2 * 1,30,1,997 * 191.0985,"NIST 46.6","n.a." * 309972,"Al-(Phthalate)2-",0,7.15,0,0,-1,0,0,0,2 * 1,30,2,997 * 355.2155,"NIST 46.6","n.a." * 9509971,"Zn-Phthalate (aq)",13,2.91,0,0,0,0,0,0,2 * 1,950,1,997 * 229.507,"NIST 46.6","NIST 46.6" * 9509972,"Zn-(Phthalate)2-2",0,4.2,0,0,-2,0,0,0,2 * 1,950,2,997 * 393.624,"NIST 46.6","n.a." * 1609971,"Cd-Phthalate (aq)",0,3.42,0,0,0,0,0,0,2 * 1,160,1,997 * 276.527,"NIST 46.6","n.a." * 1609973,"CdH-Phthalate+",0,6.3,0,0,1,0,0,0,3 * 1,160,1,997,1,330 * 277.5349,"NIST 46.6","n.a." * 1609972,"Cd-(Phthalate)2-2",0,3.69,0,0,-2,0,0,0,2 * 1,160,2,997 * 440.644,"NIST 46.6","n.a." * 2319971,"Cu-Phthalate (aq)",8.3,4.02,0,0,0,0,0,0,2 * 1,231,1,997 * 227.663,"NIST 46.6","NIST 46.6" * 2319970,"CuH-Phthalate+",9.3,7.14,0,0,1,0,0,0,3 * 1,231,1,997,1,330 * 228.6709,"NIST 46.6","NIST 46.6" * 2319972,"Cu-(Phthalate)2-2",15,5.3,0,0,-2,0,0,0,2 * 1,231,2,997 * 391.78,"NIST 46.6","NIST 46.6" * 5409971,"Ni-Phthalate (aq)",7.5,2.95,0,0,0,0,0,0,2 * 1,540,1,997 * 222.807,"NIST 46.6","NIST 46.6" * 5409972,"NiH-Phthalate+",0,6.65,0,0,1,0,0,0,3 * 1,540,1,997,1,330 * 223.8149,"NIST 46.6","n.a." * 2009971,"Co-Phthalate (aq)",7.9,2.83,0,0,0,0,0,0,2 * 1,200,1,997 * 223.0502,"NIST 46.6","NIST 46.6" * 2009972,"CoH-Phthalate+",0,7.22,0,0,1,0,0,0,3 * 1,200,1,330,1,997 * 224.0581,"NIST 46.6","NIST 46.6" * 4709971,"Mn-Phthalate (aq)",10,2.74,0,0,0,0,0,0,2 * 1,470,1,997 * 219.055,"NIST 46.6","NIST 46.6" * 2119971,"Cr-Phthalate+",0,16.3,0,0,1,0,0,0,4 * 1,211,1,997,2,330,-2,2 * 216.113,"SCD2.62","SCD2.62" * 2119972,"Cr-(Phthalate)2-",0,21.2,0,0,-1,0,0,0,4 * 1,211,2,997,2,330,-2,2 * 380.23,"SCD2.62","SCD2.62" * 2119973,"Cr-(Phthalate)3-3",0,23.3,0,0,-3,0,0,0,4 * 1,211,3,997,2,330,-2,2 * 544.347,"SCD2.62","SCD2.62" * 1109971,"Be-Phthalate (aq)",0,4.24,0,0,0,0,0,0,2 * 1,110,1,997 * 173.1292,"NIST 46.6","n.a." * 1109972,"Be-(Phthalate)2-2",0,6.39,0,0,-2,0,0,0,2 * 1,110,2,997 * 337.2462,"NIST 46.6","n.a." * 4609971,"Mg-Phthalate (aq)",0,2.52,0,0,0,0,0,0,2 * 1,460,1,997 * 188.422,"NIST 46.6","n.a." * 1509970,"Ca-Phthalate (aq)",0,2.45,0,0,0,0,0,0,2 * 1,150,1,997 * 204.195,"NIST 46.6","n.a." * 1509971,"CaH-Phthalate+",0,6.43,0,0,1,0,0,0,3 * 1,150,1,997,1,330 * 205.2029,"NIST 46.6","n.a." * 1009971,"Ba-Phthalate (aq)",0,2.3,0,0,0,0,0,0,2 * 1,100,1,997 * 301.447,"NIST 46.6","n.a." * 5009970,"Na-Phthalate-",4,.8,0,0,-1,0,0,0,2 * 1,500,1,997 * 187.1068,"NIST 46.6","NIST 46.6" * 4109971,"K-Phthalate-",4,.7,0,0,-1,0,0,0,2 * 1,410,1,997 * 203.2153,"NIST 46.6","NIST 46.6" * 2909970,"Ga-Phthalate+",0,6.43,0,0,1,0,0,0,2 * 1,290,1,997 * 233.84,"NIST 46.6","n.a." * 309973,"Al2(OH)2-(Phthalate)2 (aq)",0,3.146,0,0,0,0,0,0,4 * 2,30,2,997,-2,330,2,2 * 416.2116,"NIST 46.6","n.a." * 309970,"Al2(OH)2-Phthalate+2",0,-.354,0,0,2,0,0,0,4 * 2,30,1,997,-2,330,2,2 * 252.0946,"NIST 46.6","n.a." * 909971,"H4BO3-Phthalate-",0,-1.07,0,0,-1,0,0,0,3 * 1,90,1,997,1,330 * 226.9581,"NIST 46.6","n.a." * 909970,"H3BO3-Phthalate-2",0,-.07,0,0,-2,0,0,0,2 * 1,90,1,997 * 225.9501,"NIST 46.6","n.a." * 6009970,"PbH-(Phthalate)2-",0,9,0,0,-1,0,0,0,3 * 1,600,2,997,1,330 * 536.4319,"NIST 46.6","n.a." * 9029972,"VOH-Phthalate+",0,7.14,0,0,1,0,0,0,3 * 1,902,1,997,1,330 * 232.064,"NIST 46.6","n.a." * 9029971,"VO-(Phthalate)2-2",0,7.24,0,0,-2,0,0,0,2 * 1,902,2,997 * 395.173,"NIST 46.6","n.a." * 9029970,"VO-Phthalate (aq)",0,4.82,0,0,0,0,0,0,2 * 1,902,1,997 * 231.056,"NIST 46.6","n.a." * 2109970,"Cr-Phthalate (aq)",0,3.29,0,0,0,0,0,0,2 * 1,210,1,997 * 216.113,"NIST 46.6","n.a." * 8939972,"(UO2)2(OH)2-(Phthalate)2-2",0,3.436,0,0,-2,0,0,0,4 * 2,893,2,997,-2,330,2,2 * 902.3042,"NIST 46.6","n.a." * 8939971,"UO2-(Phthalate)2-2",0,8.58,0,0,-2,0,0,0,2 * 1,893,2,997 * 598.2618,"NIST 46.6","n.a." * 8939970,"UO2-Phthalate (aq)",0,5.66,0,0,0,0,0,0,2 * 1,893,1,997 * 434.1448,"NIST 46.6","n.a." * 4509970,"Lu-Phthalate+",0,4.93,0,0,1,0,0,0,2 * 1,450,1,997 * 339.084,"NIST 46.6","n.a." * 8069970,"Yb-Phthalate+",0,4.76,0,0,1,0,0,0,2 * 1,806,1,997 * 337.157,"NIST 46.6","n.a." * 8809970,"Tm-Phthalate+",0,4.81,0,0,1,0,0,0,2 * 1,880,1,997 * 333.051,"NIST 46.6","n.a." * 2509970,"Er-Phthalate+",0,5.04,0,0,1,0,0,0,2 * 1,250,1,997 * 331.376,"NIST 46.6","n.a." * 3709970,"Ho-Phthalate+",0,4.83,0,0,1,0,0,0,2 * 1,370,1,997 * 329.047,"NIST 46.6","n.a." * 2409970,"Dy-Phthalate+",0,4.76,0,0,1,0,0,0,2 * 1,240,1,997 * 326.617,"NIST 46.6","n.a." * 8019970,"Tb-Phthalate+",0,4.74,0,0,1,0,0,0,2 * 1,801,1,997 * 323.042,"NIST 46.6","n.a." * 3109970,"Gd-Phthalate+",0,4.91,0,0,1,0,0,0,2 * 1,310,1,997 * 321.367,"NIST 46.6","n.a." * 2609970,"Eu-Phthalate+",0,4.98,0,0,1,0,0,0,2 * 1,260,1,997 * 316.081,"NIST 46.6","n.a." * 7809970,"Sm-Phthalate+",0,4.98,0,0,1,0,0,0,2 * 1,780,1,997 * 314.477,"NIST 46.6","n.a." * 5209970,"Nd-Phthalate+",0,5.16,0,0,1,0,0,0,2 * 1,520,1,997 * 308.357,"NIST 46.6","n.a." * 5859970,"Pr-Phthalate+",0,4.84,0,0,1,0,0,0,2 * 1,585,1,997 * 305.025,"NIST 46.6","n.a." * 4209970,"La-Phthalate+",0,4.74,0,0,1,0,0,0,2 * 1,420,1,997 * 303.023,"NIST 46.6","NIST 46.6" * 8059970,"Y-Phthalate+",0,4.74,0,0,1,0,0,0,2 * 1,805,1,997 * 253.027,"NIST 46.6","n.a." * 8009970,"Sr-Phthalate (aq)",0,2.38,0,0,0,0,0,0,2 * 1,800,1,997 * 251.737,"NIST 46.6","n.a." * 4909970,"NH4-Phthalate-",0,1.3,0,0,-1,0,0,0,2 * 1,490,1,997 * 182.1556,"NIST 46.6","n.a." * 4409970,"Li-Phthalate-",0,.9,0,0,-1,0,0,0,2 * 1,440,1,997 * 171.056,"NIST 46.6","n.a." * 5509970,"NpO2-Phthalate-",0,2.63,0,0,-1,0,0,0,2 * 1,550,1,997 * 433.107,"NIST 46.6","n.a." * 8029971,"Th-(Phthalate)2 (aq)",0,12.6,0,0,0,0,0,0,2 * 1,802,2,997 * 560.274,"NIST 46.6","n.a." * 8029970,"Th-Phthalate+2",0,7.55,0,0,2,0,0,0,2 * 1,802,1,997 * 396.157,"NIST 46.6","n.a." * @ * MINERALS * -2,"Dummy",0,99999,0,0,0,0,0,0,1 * 1,-1 * 89.0000,"dummy variable for surface precipitation","" * 1960003,"Sb2O3(s)",0,8.48,0,0,0,0,0,0,2 * 2,740,-3,2 * 291.4979,"FiMay03","n.a." * 1960002,"U(OH)2SO4",0,-3.17,0,0,0,0,0,0,4 * 1,891,1,732,-2,330,2,2 * 368.1052,"NEA_2003","n.a." * 1960001,"As2S3(am)",-244.2,44.9,0,0,0,0,0,0,4 * 2,60,3,730,3,330,-6,2 * 246.0356,"NordArch02","NordArch02" * 1960000,"Zn-Al LDH",0,-19.83,0,0,0,0,0,0,5 * 2,950,1,30,.5,140,-6,330,6,2 * 289.7698,"JoGla03","n.a." * 73100,"Sulfur",16.3,2.1449,0,0,0,0,0,0,3 * 1,730,-1,330,-2,1 * 32.0651,"CODATA89","CODATA89" * 76000,"Se metal (hex,blk)",-15.9,7.7084,0,0,0,0,0,0,3 * 1,760,-1,330,-2,1 * 78.9521,"NIST2.1.1","NIST2.1.1" * 76001,"Se metal (am)",-10.8784,7.1099,0,0,0,0,0,0,3 * 1,760,-1,330,-2,1 * 78.9521,"MTQ3.11","MTQ3.11" * 74001,"Sb metal",-83.89,11.6889,0,0,0,0,0,0,4 * 1,740,3,330,3,1,-3,2 * 121.7478,"NIST2.1.1","NIST2.1.1" * 79000,"Sn metal (wht)",0,2.3266,0,0,0,0,0,0,4 * 1,790,-2,2,2,330,2,1 * 118.7098,"CODATA89","MTQ3.11" * 60000,"Pb metal",-.92,-4.2462,-4.07,-4.31,0,0,0,0,2 * 1,600,2,1 * 207.2,"CODATA89","CODATA89" * 87000,"Tl metal",-5.36,-5.6762,0,0,0,0,0,0,2 * 1,870,1,1 * 204.383,"NIST2.1.1","NIST2.1.1" * 95000,"Zn metal",153.39,-25.7886,0,-25.79,0,0,0,0,2 * 1,950,2,1 * 65.39,"CODATA89","CODATA89" * 16000,"Cd metal (alpha)",75.33,-13.5147,0,-13.64,0,0,0,0,2 * 1,160,2,1 * 112.41,"NIST2.1.1","NIST2.1.1" * 16001,"Cd metal (gamma)",75.92,-13.618,0,0,0,0,0,0,2 * 1,160,2,1 * 112.41,"NIST2.1.1","NIST2.1.1" * 36000,"Hg metal (l)",-83.435,13.4517,0,0,0,0,0,0,2 * .5,360,1,1 * 200.59,"CODATA89","CODATA89" * 23000,"Cu metal",-71.67,8.756,0,8.8,0,0,0,0,2 * 1,230,1,1 * 63.546,"CODATA89","CODATA89" * 2000,"Ag metal",-105.79,13.5065,0,0,0,0,0,0,2 * 1,20,1,1 * 107.8682,"CODATA89","CODATA89" * 21000,"Cr metal",172,-30.4831,0,0,0,0,0,0,2 * 1,210,2,1 * 51.9961,"NIST13.1","NIST13.1" * 90000,"V metal",259,-44.0253,0,0,0,0,0,0,2 * 1,901,3,1 * 50.9425,"NIST13.1","NIST13.1" * 1074000,"Stibnite",-293.78,50.46,0,0,0,0,0,0,4 * 2,740,3,330,3,730,-6,2 * 339.6909,"NIST46.4","NIST2.1.1" * 1006000,"Orpiment",-263.1,46.3,0,0,0,0,0,0,4 * 2,60,3,730,3,330,-6,2 * 246.0381,"NordArch02","NordArch02" * 1006001,"Realgar",-129.2625,19.944,0,0,0,0,0,0,5 * 1,60,1,730,2,330,1,1,-3,2 * 106.9865,"NordArch02","NordArch02" * 1079001,"SnS",0,19.11,0,0,0,0,0,0,4 * 1,790,-2,2,1,330,1,730 * 150.7749,"NIST 46.7","n.a." * 1079101,"SnS2",0,57.4538,0,0,0,0,0,0,4 * 1,791,-6,2,4,330,2,730 * 182.8396,"Bard85","MTQ3.11" * 1060001,"Galena",-80,14.92,0,0,0,0,0,0,3 * 1,600,1,730,-1,330 * 239.2651,"NIST 46.7","NIST 46.7" * 1087000,"Tl2S",-91.52,7.19,0,0,0,0,0,0,3 * 2,870,-1,330,1,730 * 440.8311,"NIST 46.7","NIST2.1.1" * 1095001,"Spharelite",-30,10.82,0,0,0,0,0,0,3 * 1,950,-1,330,1,730 * 97.4551,"NIST 46.7","NIST 46.7" * 1095002,"Wurtzite",-21.171,8.62,0,0,0,0,0,0,3 * 1,950,1,730,-1,330 * 97.4551,"NIST 46.7","MTQ3.11" * 1016000,"Greenockite",-55,14.02,0,0,0,0,0,0,3 * 1,160,1,730,-1,330 * 144.4751,"NIST 46.7","NIST 46.7" * 1036000,"Hg2S",-69.7473,11.6765,0,0,0,0,0,0,3 * 1,360,1,730,-1,330 * 433.2451,"MTQ3.11","MTQ3.11" * 1036100,"Cinnabar",-253.76,45.28,0,0,0,0,0,0,4 * 1,361,-2,2,1,330,1,730 * 232.6503,"NIST 46.7","NIST2.1.1" * 1036101,"Metacinnabar",-254,44.88,0,0,0,0,0,0,4 * 1,361,-2,2,1,330,1,730 * 232.6503,"NIST 46.7","NIST 46.7" * 1023000,"Chalcocite",-168,34.92,0,0,0,0,0,0,3 * 2,230,-1,330,1,730 * 159.1571,"NIST 46.7","NIST 46.7" * 1023001,"Djurleite",-200.3341,33.92,0,0,0,0,0,0,4 * -1,330,.066,231,1.868,230,1,730 * 154.9631,"MTQ3.11","MTQ3.11" * 1023002,"Anilite",-182.1504,31.878,0,0,0,0,0,0,4 * -1,330,.25,231,1.5,230,1,730 * 143.2706,"MTQ3.11","MTQ3.11" * 1023003,"Blaublei II",0,27.279,0,0,0,0,0,0,4 * -1,330,.6,231,.8,230,1,730 * 121.0295,"MTQ3.11","MTQ3.11" * 1023100,"Blaublei I",0,24.162,0,0,0,0,0,0,4 * -1,330,.9,231,.2,230,1,730 * 101.9657,"MTQ3.11","MTQ3.11" * 1023101,"Covellite",-97,22.22,0,0,0,0,0,0,3 * 1,231,1,730,-1,330 * 95.6111,"NIST 46.7","NIST 46.7" * 1023102,"Chalcopyrite",-148.4483,35.27,0,30.79,0,0,0,0,4 * -2,330,1,231,1,280,2,730 * 183.5232,"MTQ3.11","MTQ3.11" * 1002000,"Acanthite",-227,36.22,0,0,0,0,0,0,3 * 2,20,-1,330,1,730 * 247.8015,"NIST 46.7","NIST 46.7" * 1054001,"NiS (alpha)",0,5.52,0,0,0,0,0,0,3 * 1,540,1,730,-1,330 * 90.7551,"NIST 46.7","n.a." * 1054002,"NiS (beta)",0,11.02,0,0,0,0,0,0,3 * 1,540,1,730,-1,330 * 90.7551,"NIST 46.7","n.a." * 1054003,"NiS (gamma)",0,12.72,0,0,0,0,0,0,3 * 1,540,1,730,-1,330 * 90.7551,"NIST 46.7","n.a." * 1020001,"CoS (alpha)",0,7.42,0,0,0,0,0,0,3 * 1,200,1,730,-1,330 * 90.9983,"NIST 46.7","n.a." * 1020002,"CoS (beta)",0,11.72,0,0,0,0,0,0,3 * 1,200,1,730,-1,330 * 90.9983,"NIST 46.7","n.a." * 1028000,"FeS (ppt)",11,2.95,0,0,0,0,0,0,3 * 1,280,1,730,-1,330 * 87.9121,"Da1991","NIST46.4" * 1028001,"Greigite",0,45.035,0,0,0,0,0,0,4 * -4,330,2,281,1,280,4,730 * 295.8014,"MTQ3.11","MTQ3.11" * 1028002,"Mackinawite",0,3.6,0,0,0,0,0,0,3 * 1,280,1,730,-1,330 * 87.9121,"Da1991","MTQ3.11" * 1028003,"Pyrite",-49.844,18.5082,0,0,0,0,0,0,4 * -2,330,-2,1,1,280,2,730 * 119.9772,"NIST13.1","NIST13.1" * 1047000,"MnS (grn)",32,.02,0,0,0,0,0,0,3 * 1,470,1,730,-1,330 * 87.0031,"NIST 46.7","NIST 46.7" * 1047001,"MnS (pnk)",0,-2.98,0,0,0,0,0,0,3 * 1,470,1,730,-1,330 * 87.0031,"NIST 46.7","n.a." * 1048001,"MoS2",-389.0199,70.2596,0,0,0,0,0,0,5 * 1,480,-4,2,6,330,2,730,2,1 * 160.0698,"Bard85","Bard85" * 1011001,"BeS",0,-19.38,0,0,0,0,0,0,3 * 1,110,-1,330,1,730 * 41.0773,"NIST 46.7","n.a." * 1010001,"BaS",0,-16.18,0,0,0,0,0,0,3 * 1,100,-1,330,1,730 * 169.3951,"NIST 46.7","n.a." * 1011501,"Bi2S3",0,41.06,0,0,0,0,0,0,3 * 2,115,3,730,-3,330 * 514.152,"NIST 46.7","n.a." * 1039001,"In2S3",0,37.9,0,0,0,0,0,0,3 * 2,390,3,730,-3,330 * 325.828,"NIST 46.7","n.a." * 1080001,"SrS",0,-13.88,0,0,0,0,0,0,3 * 1,800,1,730,-1,330 * 119.684,"NIST 46.7","n.a." * 1015001,"CaS",0,-11.18,0,0,0,0,0,0,3 * 1,150,1,730,-1,330 * 72.144,"NIST 46.7","n.a." * 1046001,"MgS",0,-17.68,0,0,0,0,0,0,3 * 1,460,1,730,-1,330 * 56.376,"NIST 46.7","n.a." * 1136001,"Hg2(CN)2",0,39.3,0,0,0,0,0,0,2 * 1,360,2,143 * 453.2154,"NIST46.4","MTQ3.11" * 1123001,"CuCN",19,19.5,0,0,0,0,0,0,2 * 1,230,1,143 * 89.5637,"NIST 46.7","NIST 46.7" * 1102002,"AgCN",-110.3948,15.74,0,0,0,0,0,0,2 * 1,20,1,143 * 133.8859,"NIST 46.7","MTQ3.11" * 1102004,"Ag2(CN)2",0,11.3289,0,0,0,0,0,0,2 * 2,20,2,143 * 267.7718,"NIST46.4","MTQ3.11" * 1150001,"NaCN (cubic)",-.969,-1.6012,0,0,0,0,0,0,2 * 1,143,1,500 * 49.0075,"NIST13.1","NIST13.1" * 1141002,"KCN (cubic)",-11.93,-1.4188,0,0,0,0,0,0,2 * 1,143,1,410 * 65.116,"NIST13.1","NIST13.1" * 1160002,"Pb2Fe(CN)6",0,53.42,0,0,0,0,0,0,3 * 2,600,1,280,6,143 * 626.3532,"NIST46.4","MTQ3.11" * 1195002,"Zn2Fe(CN)6",0,51.08,0,0,0,0,0,0,3 * 2,950,1,280,6,143 * 342.7332,"NIST46.4","MTQ3.11" * 1116002,"Cd2Fe(CN)6",0,52.78,0,0,0,0,0,0,3 * 2,160,1,280,6,143 * 436.7732,"NIST46.4","MTQ3.11" * 1102003,"Ag4Fe(CN)6",0,79.47,0,0,0,0,0,0,3 * 4,20,1,280,6,143 * 643.426,"NIST46.4","MTQ3.11" * 1102005,"Ag3Fe(CN)6",0,72.7867,0,0,0,0,0,0,3 * 3,20,1,281,6,143 * 535.5578,"NIST46.4","MTQ3.11" * 1147001,"Mn3[Fe(CN)6]2",0,105.4,0,0,0,0,0,0,3 * 3,470,2,281,12,143 * 588.7204,"NIST46.4","MTQ3.11" * 1274000,"Sb2Se3",-343.0461,67.7571,0,0,0,0,0,0,4 * 2,740,3,760,3,330,-6,2 * 480.3519,"PNL89","PNL89" * 1279001,"SnSe",0,30.494,0,0,0,0,0,0,4 * 1,790,-2,2,1,330,1,760 * 197.6619,"NIST46.4","MTQ3.11" * 1279101,"SnSe2",0,65.1189,0,0,0,0,0,0,4 * 1,791,-6,2,4,330,2,760 * 276.6136,"Bard85","MTQ3.11" * 1260000,"Clausthalite",-119.72,27.1,0,0,0,0,0,0,3 * 1,600,1,760,-1,330 * 286.1521,"NIST46.4","NIST2.1.1" * 1287000,"Tl2Se",-85.62,18.1,0,0,0,0,0,0,3 * 2,870,1,760,-1,330 * 487.7181,"NIST46.4","NIST2.1.1" * 1295000,"ZnSe",-25.51,14.4,0,0,0,0,0,0,3 * 1,950,1,760,-1,330 * 144.3421,"NIST46.4","NIST2.1.1" * 1216000,"CdSe",-75.9814,20.2,0,0,0,0,0,0,3 * 1,160,1,760,-1,330 * 191.3621,"NIST46.4","MTQ3.11" * 1236101,"HgSe",0,55.694,0,0,0,0,0,0,4 * 1,361,-2,2,1,330,1,760 * 279.5373,"NIST46.4","MTQ3.11" * 1223000,"Cu2Se (alpha)",-214.2626,45.8,0,0,0,0,0,0,3 * 2,230,1,760,-1,330 * 206.0441,"NIST46.4","MTQ3.11" * 1223001,"Cu3Se2",-340.3265,63.4911,0,0,0,0,0,0,4 * 2,760,2,230,1,231,-2,330 * 348.5422,"MTQ3.11","MTQ3.11" * 1223100,"CuSe",-121.1268,33.1,0,0,0,0,0,0,3 * 1,231,1,760,-1,330 * 142.4981,"NIST46.4","MTQ3.11" * 1223101,"CuSe2",-140.5824,33.3655,0,0,0,0,0,0,4 * 2,760,1,231,-2,330,-2,1 * 221.4502,"MTQ3.11","MTQ3.11" * 1202000,"Ag2Se",-265.48,48.7,0,0,0,0,0,0,3 * 2,20,1,760,-1,330 * 294.6885,"NIST46.4","NIST2.1.1" * 1254000,"NiSe",0,17.7,0,0,0,0,0,0,3 * 1,540,1,760,-1,330 * 137.6421,"NIST46.4","MTQ3.11" * 1220000,"CoSe",0,16.2,0,0,0,0,0,0,3 * 1,200,1,760,-1,330 * 137.8853,"NIST46.4","MTQ3.11" * 1228000,"FeSe",-2.092,11,0,0,0,0,0,0,3 * 1,280,1,760,-1,330 * 134.7991,"NIST46.4","MTQ3.11" * 1228001,"Ferroselite",-47.2792,18.5959,0,0,0,0,0,0,4 * 2,760,1,280,-2,330,-2,1 * 213.7512,"MTQ3.11","MTQ3.11" * 1247000,"MnSe",98.15,-3.5,0,0,0,0,0,0,3 * 1,470,1,760,-1,330 * 133.8901,"NIST46.4","NIST2.1.1" * 1474003,"AlSb",0,-65.6241,0,0,0,0,0,0,5 * 1,740,6,1,1,30,3,330,-3,2 * 148.7293,"PNL89","PNL89" * 1474002,"ZnSb",54.8773,-11.0138,0,0,0,0,0,0,5 * 1,740,5,1,1,950,3,330,-3,2 * 187.1378,"PNL89","PNL89" * 1474004,"CdSb",-22.36,.3501,0,0,0,0,0,0,5 * 1,740,5,1,3,330,1,160,-3,2 * 234.1578,"NIST2.1.1","NIST2.1.1" * 1474012,"Cu2Sb:3H2O",-233.2371,34.8827,0,0,0,0,0,0,5 * 1,740,6,1,3,330,1,230,1,231 * 302.8857,"PNL89","PNL89" * 1474014,"Cu3Sb",-308.1307,42.5937,0,0,0,0,0,0,5 * 1,740,6,1,3,330,3,230,-3,2 * 312.3858,"PNL89","PNL89" * 1474006,"Ag4Sb",0,56.1818,0,0,0,0,0,0,5 * 1,740,6,1,3,20,3,330,-3,2 * 445.3524,"PNL89","PNL89" * 1474001,"Breithauptite",-96.0019,18.5225,0,0,0,0,0,0,5 * 1,740,5,1,3,330,1,540,-3,2 * 180.4378,"PNL89","PNL89" * 1474013,"MnSb",-21.1083,2.9099,0,0,0,0,0,0,5 * 1,471,1,740,6,1,3,330,-3,2 * 176.6858,"PNL89","PNL89" * 1474009,"Mn2Sb",0,-61.0796,0,0,0,0,0,0,5 * 2,470,1,740,7,1,3,330,-3,2 * 231.6238,"PNL89","PNL89" * 1474011,"USb2",103.5601,-29.5771,0,0,0,0,0,0,5 * 1,893,2,740,12,1,10,330,-8,2 * 481.5243,"NIST2.1.1","NIST2.1.1" * 1474015,"U3Sb4",986.04,-152.3834,0,0,0,0,0,0,5 * 3,891,4,740,24,1,12,330,-12,2 * 1201.078,"NIST2.1.1","NIST2.1.1" * 1474005,"Mg2Sb3",0,-74.6838,0,0,0,0,0,0,5 * 2,460,3,740,9,330,13,1,-9,2 * 413.8535,"PNL89","PNL89" * 1474010,"Ca3Sb2",732.744,-142.9738,0,0,0,0,0,0,5 * 3,150,2,740,6,330,12,1,-6,2 * 363.7296,"PNL89","PNL89" * 1474008,"NaSb",93.45,-23.1658,0,0,0,0,0,0,5 * 1,500,1,740,3,330,4,1,-3,2 * 144.7376,"NIST2.1.1","NIST2.1.1" * 1474007,"Na3Sb",432.13,-94.4517,0,0,0,0,0,0,5 * 3,500,1,740,3,330,6,1,-3,2 * 190.7172,"NIST2.1.1","NIST2.1.1" * 2076100,"SeO2",-1.4016,-.1246,0,0,0,0,0,0,3 * 1,761,1,330,-1,2 * 110.9526,"MTQ3.11","MTQ3.11" * 2076200,"SeO3",146.3772,-21.044,0,0,0,0,0,0,3 * 1,762,2,330,-1,2 * 126.9505,"MTQ3.11","MTQ3.11" * 2074100,"Sb2O5",0,11.04,0,0,0,0,0,0,3 * 2,741,2,330,-7,2 * 323.4887,"FiMay03","n.a." * 2074102,"SbO2",0,27.8241,0,0,0,0,0,0,4 * 1,741,1,1,2,330,-4,2 * 153.7446,"PNL89","PNL89" * 2074001,"Sb2O4",68.04,-3.4021,0,0,0,0,0,0,4 * 2,740,-2,2,-2,330,-2,1 * 307.4936,"NIST2.1.1","NIST2.1.1" * 2074002,"Sb4O6 (cubic)",-61.1801,18.56,0,0,0,0,0,0,3 * 4,740,0,330,-6,2 * 582.9882,"FiMay03","NIST2.1.1" * 2074003,"Sb4O6 (rhombic)",-37.6801,17.71,0,0,0,0,0,0,3 * 4,740,0,330,-6,2 * 582.9882,"FiMay03","NIST2.1.1" * 2074006,"Senarmontite",-30.6478,11.44,0,0,0,0,0,0,2 * 2,740,-3,2 * 291.4941,"FiMay03","PNL89" * 2074007,"Valentinite",-19.0163,10,0,0,0,0,0,0,2 * 2,740,-3,2 * 291.4941,"FiMay03","PNL89" * 2077000,"Chalcedony",-19.7,3.55,0,0,0,0,0,0,2 * 1,770,-2,2 * 60.0843,"Nord90","Nord90" * 2077001,"Cristobalite",-20.006,3.35,0,0,0,0,0,0,2 * 1,770,-2,2 * 60.0843,"NIST46.4","NIST13.1" * 2077002,"Quartz",-22.36,4,0,0,0,0,0,0,2 * 1,770,-2,2 * 60.0843,"NIST46.4","CODATA89" * 2077003,"SiO2 (am,gel)",-14,2.71,0,0,0,0,0,0,2 * 1,770,-2,2 * 60.0843,"Nord90","Nord90" * 2077004,"SiO2 (am,ppt)",-15.15,2.74,0,0,0,0,0,0,2 * 1,770,-2,2 * 60.0843,"NIST46.4","NIST2.1.1" * 2079001,"SnO",0,5.3,0,0,0,0,0,0,2 * 1,790,-1,2 * 134.7093,"NIST 46.7","n.a." * 2079101,"SnO2",0,28.9749,0,0,0,0,0,0,3 * 1,791,-4,2,2,330 * 150.7084,"CODATA89","MTQ3.11" * 2079002,"Sn(OH)2",0,4.9,0,0,0,0,0,0,1 * 1,790 * 152.7246,"NIST 46.7","n.a." * 2079102,"Sn(OH)4",0,22.2808,0,0,0,0,0,0,3 * 1,791,-2,2,2,330 * 186.739,"Bard85","MTQ3.11" * 2079103,"H2Sn(OH)6",0,23.5281,0,0,0,0,0,0,2 * 1,791,2,330 * 222.7696,"Bard85","MTQ3.11" * 2060000,"Massicot",66.848,-12.89,0,0,0,0,0,0,3 * 1,600,1,2,-2,330 * 223.1995,"NIST 46.7","NIST13.1" * 2060001,"Litharge",65.501,-12.69,0,0,0,0,0,0,3 * 1,600,1,2,-2,330 * 223.1995,"NIST 46.7","NIST13.1" * 2060002,"PbO:0.3H2O",0,-12.98,0,0,0,0,0,0,3 * -2,330,1,600,1.33,2 * 229.1446,"MTQ3.11","MTQ3.11" * 2060003,"Plattnerite",296.27,-49.6001,-49,0,0,0,0,0,4 * -4,330,-2,1,1,600,2,2 * 239.199,"NIST13.1","NIST13.1" * 2060004,"Pb(OH)2",58.5342,-8.15,0,-13.63,0,0,0,0,3 * -2,330,1,600,2,2 * 241.2148,"MTQ3.11","MTQ3.11" * 2060005,"Pb2O(OH)2",0,-26.19,0,0,0,0,0,0,3 * 2,600,3,2,-4,330 * 464.4143,"NIST 46.7","n.a." * 2059000,"Pu(OH)3",0,-15.79,0,0,0,0,0,0,3 * 1,590,-3,330,3,2 * 295.0219,"Runde02","n.a." * 2059100,"PuO2 (c)",0,7.81,0,0,0,0,0,0,3 * 1,591,-4,330,2,2 * 275.9986,"Runde02","n.a." * 2059101,"Pu(OH)4 (am)",0,2.51,0,0,0,0,0,0,3 * 1,591,-4,330,4,2 * 312.0292,"Runde02","n.a." * 2059200,"PuO2OH (am)",0,-5.1,0,0,0,0,0,0,3 * 1,592,-1,330,1,2 * 292.9973,"Runde02","n.a." * 2059300,"PuO2(OH)2",0,-5.29,0,0,0,0,0,0,3 * 1,593,-2,330,2,2 * 310.0046,"Runde02","n.a." * 2035000,"HfO2",0,-1.19,0,0,0,0,0,0,3 * 1,350,-4,330,2,2 * 210.4886,"NIST 46.7","n.a." * 2013500,"Ce(OH)3",0,-19.89,0,0,0,0,0,0,3 * 1,135,-3,330,3,2 * 191.1379,"NIST 46.7","n.a." * 2003000,"Al(OH)3 (am)",111,-10.8,-9.69,0,0,0,0,0,3 * 1,30,3,2,-3,330 * 78.0037,"Nord90","Nord90" * 2003001,"Boehmite",117.6959,-8.578,-8.065,0,0,0,0,0,3 * -3,330,1,30,2,2 * 59.9884,"MTQ3.11","MTQ3.11" * 2003002,"Diaspore",103.0519,-6.873,0,0,0,0,0,0,3 * -3,330,1,30,2,2 * 59.9884,"MTQ3.11","MTQ3.11" * 2003003,"Gibbsite (C)",105,-7.74,0,0,0,0,0,0,3 * 1,30,3,2,-3,330 * 78.0037,"PalmW92","PalmW92" * 2003004,"Al(OH)3 (Soil)",105,-8.29,0,0,0,0,0,0,3 * 1,30,3,2,-3,330 * 78.0037,"Gust98","Gust98" * 2003005,"Imogolite",193.6,-13,0,0,0,0,0,0,4 * 2,30,1,770,3,2,-6,330 * 198.08,"Su94","Lums95" * 2080300,"Rutile",0,7.62,0,0,0,0,0,0,2 * 1,803,-2,2 * 79.8694,"Kna01","Kna01" * 2087000,"Tl2O",96.41,-27.0915,0,0,0,0,0,0,3 * 2,870,1,2,-2,330 * 424.7655,"NIST2.1.1","NIST2.1.1" * 2087001,"TlOH",41.57,-12.9186,0,0,0,0,0,0,3 * 1,870,1,2,-1,330 * 221.3904,"NIST2.1.1","NIST2.1.1" * 2087100,"Avicennite",0,13,0,0,0,0,0,0,2 * 2,871,-3,2 * 456.7641,"NIST 46.6","n.a." * 2087101,"Tl(OH)3",0,5.441,0,0,0,0,0,0,3 * 1,871,0,2,0,330 * 255.405,"SCD3.02 (1958VSa)","MTQ3.11" * 2095000,"Zn(OH)2 (am)",85.62,-12.474,0,0,0,0,0,0,3 * 1,950,2,2,-2,330 * 99.4048,"NIST 46.7","NIST 46.7" * 2095002,"Zn(OH)2 (beta)",83.14,-11.754,0,0,0,0,0,0,3 * 1,950,2,2,-2,330 * 99.4048,"NIST 46.7","NIST2.1.1" * 2095003,"Zn(OH)2 (gamma)",81.8,-11.734,0,0,0,0,0,0,3 * 1,950,2,2,-2,330 * 99.4048,"NIST 46.7","NIST2.1.1" * 2095007,"Zn(OH)2 (delta)",0,-11.844,0,0,0,0,0,0,3 * 1,950,-2,330,2,2 * 99.3845,"NIST 46.7","n.a." * 2095004,"Zn(OH)2 (epsilon)",78.62,-11.534,0,0,0,0,0,0,3 * 1,950,2,2,-2,330 * 99.4048,"NIST 46.7","NIST 46.7" * 2095006,"Zincite",89.62,-11.23,0,0,0,0,0,0,3 * 1,950,1,2,-2,330 * 81.3895,"NIST 46.7","NIST 46.7" * 2016001,"Cd(OH)2",94.62,-13.644,0,0,0,0,0,0,3 * 1,160,2,2,-2,330 * 146.4248,"NIST 46.7","NIST 46.7" * 2036000,"Hg2(OH)2",0,-5.2603,0,0,0,0,0,0,3 * 1,360,2,2,-2,330 * 435.1948,"MTQ3.11","MTQ3.11" * 2036100,"Montroydite",-17.58,3.61,0,0,0,0,0,0,3 * 1,361,-1,2,0,330 * 216.5847,"NIST 46.7","NIST 46.7" * 2036101,"Hg(OH)2",0,3.4963,0,0,0,0,0,0,1 * 1,361 * 234.6,"MTQ3.11","MTQ3.11" * 2023000,"Cuprite",124.02,1.406,0,0,0,0,0,0,3 * 2,230,1,2,-2,330 * 143.0915,"NIST 46.6","NIST 46.6" * 2023100,"Cu(OH)2",53.12,-9.29,0,0,0,0,0,0,3 * 1,231,2,2,-2,330 * 97.5608,"NIST 46.7","NIST 46.7" * 2023101,"Tenorite(am)",64.867,-8.49,0,0,0,0,0,0,3 * 1,231,1,2,-2,330 * 79.5455,"NIST 46.7","NIST13.1" * 2023103,"Tenorite(c)",64.9,-7.64,0,0,0,0,0,0,3 * 1,231,-2,330,1,2 * 79.5453,"PlyWZM97","PlyWZM97" * 2002000,"Ag2O",45.62,-12.574,0,0,0,0,0,0,3 * 2,20,1,2,-2,330 * 231.7359,"NIST 46.7","NIST 46.7" * 2054000,"Ni(OH)2 (am)",95.96,-12.89,0,0,0,0,0,0,3 * 1,540,2,2,-2,330 * 92.7048,"NIST 46.7","NIST2.1.1" * 2054001,"Ni(OH)2 (c)",0,-10.79,0,0,0,0,0,0,3 * 1,540,-2,330,2,2 * 92.7246,"NIST 46.7","n.a." * 2020001,"CoO",106.295,-13.5864,0,0,0,0,0,0,3 * 1,200,-2,330,1,2 * 74.9327,"NIST13.1","NIST13.1" * 2020002,"Co(OH)2 (am)",0,-13.094,0,0,0,0,0,0,3 * 1,200,2,2,-2,330 * 92.948,"NIST 46.7","n.a." * 2020003,"Co(OH)2 (c)",0,-12.29,0,0,0,0,0,0,3 * 1,200,-2,330,2,2 * 92.9478,"NIST 46.7","n.a." * 2020101,"Co(OH)3",92.43,2.309,0,0,0,0,0,0,3 * 1,201,3,2,-3,330 * 109.9554,"NIST46.4","NIST46.4" * 2028001,"Fe(OH)2 (am)",91.62,-13.49,0,0,0,0,0,0,3 * 1,280,2,2,-2,330 * 89.8618,"NIST 46.7","NIST 46.7" * 2028002,"Fe(OH)2 (c)",0,-12.89,0,0,0,0,0,0,3 * 1,280,-2,330,2,2 * 89.8616,"NIST 46.7","n.a." * 2028100,"Ferrihydrite",100.4,-3.2,0,0,0,0,0,0,3 * 1,281,3,2,-3,330 * 106.8692,"LiuMill99","LiuMill99" * 2028101,"Fe3(OH)8",0,-20.222,-17.112,-24.105,0,0,0,0,4 * -8,330,2,281,1,280,8,2 * 303.6002,"MTQ3.11","MTQ3.11" * 2028102,"Goethite",60.5843,-.491,0,0,0,0,0,0,3 * 1,281,2,2,-3,330 * 88.8539,"NIST 46.7","MTQ3.11" * 2028103,"Ferrihydrite (aged)",0,-2.69,0,0,0,0,0,0,3 * 1,281,-3,330,3,2 * 106.8689,"NIST 46.7","n.a." * 2047000,"Pyrolusite",272,-41.38,0,-16.038,0,0,0,0,4 * 1,470,2,2,-4,330,-2,1 * 86.937,"Nord90","Nord90" * 2047001,"Birnessite",0,-18.091,0,0,0,0,0,0,4 * -4,330,-1,1,1,471,2,2 * 86.937,"MTQ3.11","MTQ3.11" * 2047002,"Nsutite",0,-17.504,0,0,0,0,0,0,4 * -4,330,-1,1,1,471,2,2 * 86.937,"MTQ3.11","MTQ3.11" * 2047003,"Pyrochroite",97.0099,-15.194,0,0,0,0,0,0,3 * 1,470,2,2,-2,330 * 88.9528,"NIST 46.7","NIST2.1.1" * 2047100,"Manganite",0,-25.34,0,0,0,0,0,0,4 * 1,470,2,2,-3,330,-1,1 * 87.9449,"Nord90","MTQ3.11" * 2021100,"Cr(OH)2",35.6058,-10.8189,0,0,0,0,0,0,3 * 1,210,2,2,-2,330 * 86.0109,"MTQ3.11","MTQ3.11" * 2021102,"Cr(OH)3 (am)",110.5,.49,0,0,0,0,0,0,3 * 1,211,1,2,-1,330 * 103.0182,"BallNord98","BallNord98" * 2021200,"CrO3",5.2091,3.2105,0,0,0,0,0,0,3 * 1,212,2,330,-1,2 * 99.9942,"MTQ3.11","MTQ3.11" * 2048001,"MoO3",0,8,0,0,0,0,0,0,3 * 1,480,2,330,-1,2 * 143.9381,"NIST46.4","MTQ3.11" * 2090000,"VO",113.041,-14.7563,0,0,0,0,0,0,4 * -2,330,1,901,1,2,1,1 * 66.942,"NIST13.1","NIST13.1" * 2090100,"V(OH)3",0,-7.591,0,0,0,0,0,0,3 * 1,901,3,2,-3,330 * 101.9647,"NIST 46.7","n.a." * 2090200,"VO(OH)2",0,-5.89,0,0,0,0,0,0,3 * 1,902,2,2,-2,330 * 100.9567,"NIST 46.7","n.a." * 2089100,"Uraninite",77.86,4.6693,0,0,0,0,0,0,3 * -4,330,1,891,2,2 * 270.0279,"CODATA89","CODATA89" * 2089101,"UO2 (am)",109.7463,1.5,0,0,0,0,0,0,3 * -4,330,1,891,2,2 * 270.0279,"NEA_2003","MTQ3.11" * 2089300,"UO3",81.0299,-7.7,0,0,0,0,0,0,3 * -2,330,1,893,1,2 * 286.0272,"CODATA89","CODATA89" * 2089301,"Gummite",81.0299,-7.6718,0,0,0,0,0,0,3 * -2,330,1,893,1,2 * 286.0272,"NIST2.1.1","NIST2.1.1" * 2089302,"UO2(OH)2 (beta)",56.7599,-5.6116,0,0,0,0,0,0,3 * -2,330,1,893,2,2 * 304.0425,"NIST2.1.1","NIST2.1.1" * 2089303,"Schoepite",49.79,-5.994,0,0,0,0,0,0,3 * 1,893,3,2,-2,330 * 322.0578,"NIST 46.7","NIST2.1.1" * 2011001,"Be(OH)2 (am)",0,-7.194,0,0,0,0,0,0,3 * 1,110,2,2,-2,330 * 43.027,"NIST 46.7","n.a." * 2011002,"Be(OH)2 (alpha)",0,-6.894,0,0,0,0,0,0,3 * 1,110,2,2,-2,330 * 43.027,"NIST 46.7","n.a." * 2011003,"Be(OH)2 (beta)",0,-6.494,0,0,0,0,0,0,3 * 1,110,2,2,-2,330 * 43.027,"NIST 46.7","n.a." * 2046000,"Brucite",114,-17.1,0,0,0,0,0,0,3 * 1,460,2,2,-2,330 * 58.3198,"Altma03","NIST13.1" * 2046001,"Periclase",151.23,-21.5841,0,0,0,0,0,0,3 * -2,330,1,460,1,2 * 40.3045,"CODATA89","CODATA89" * 2046002,"Mg(OH)2 (active)",0,-18.794,0,0,0,0,0,0,3 * 1,460,2,2,-2,330 * 58.3198,"NIST 46.7","n.a." * 2015000,"Lime",193.91,-32.6993,0,0,0,0,0,0,3 * -2,330,1,150,1,2 * 56.0775,"CODATA89","CODATA89" * 2015001,"Portlandite",128.62,-22.704,0,0,0,0,0,0,3 * 1,150,2,2,-2,330 * 74.0928,"NIST 46.7","NIST 46.7" * 2010001,"Ba(OH)2:8H2O",54.32,-24.394,0,0,0,0,0,0,3 * 1,100,10,2,-2,330 * 315.4672,"NIST 46.7","NIST 46.7" * 2074005,"Cu(SbO3)2",0,-45.2105,0,0,0,0,0,0,4 * 2,740,1,231,-6,330,-4,1 * 403.0386,"PNL89","PNL89" * 2039000,"In(OH)3",0,-5.09,0,0,0,0,0,0,3 * 1,390,-3,330,3,2 * 165.8399,"NIST 46.7","n.a." * 2029000,"GaOOH",0,-2.89,0,0,0,0,0,0,3 * 1,290,-3,330,2,2 * 102.7296,"NIST 46.7","n.a." * 2029001,"Ga(OH)3 (am)",0,-4.99,0,0,0,0,0,0,3 * 1,290,-3,330,3,2 * 120.7449,"NIST 46.7","n.a." * 2057000,"Pd(OH)2",0,3.45,0,0,0,0,0,0,3 * 1,570,-2,330,2,2 * 140.4346,"NIST 46.7","n.a." * 2095100,"ZrO2",0,-1.888,0,0,0,0,0,0,3 * 1,951,-4,330,2,2 * 123.2226,"NIST 46.7","n.a." * 2055002,"NpO2OH (c)",0,-4.52,0,0,0,0,0,0,3 * 1,550,-1,330,1,2 * 285.9973,"KaszRund99","n.a." * 2055000,"Np2O5",0,-5.2,0,0,0,0,0,0,3 * 2,550,-2,330,1,2 * 553.9793,"KaszRund99","n.a." * 2055001,"NpO2OH (am)",0,-5.23,0,0,0,0,0,0,3 * 1,550,-1,330,1,2 * 285.9973,"KaszRund99","n.a." * 2055200,"NpO2",0,9.9,0,0,0,0,0,0,3 * 1,552,-4,330,2,2 * 268.9986,"KaszRund99","n.a." * 2055201,"Np(OH)4",0,-1.5,0,0,0,0,0,0,3 * 1,552,-4,330,4,2 * 305.0292,"KaszRund99","n.a." * 2080200,"ThO2",0,2.71,0,0,0,0,0,0,3 * 1,802,-4,330,2,2 * 264.0386,"NIST 46.7","n.a." * 2080201,"Th(OH)4",0,-5.29,0,0,0,0,0,0,3 * 1,802,-4,330,4,2 * 300.0692,"NIST 46.7","n.a." * 2004500,"Am(OH)3 (am)",0,-16.89,0,0,0,0,0,0,3 * 1,45,-3,330,3,2 * 294.0219,"NIST 46.7","n.a." * 2004501,"Am(OH)3 (c)",0,-15.19,0,0,0,0,0,0,3 * 1,45,-3,330,3,2 * 294.0219,"NIST 46.7","n.a." * 2045000,"Lu(OH)3",0,-14.99,0,0,0,0,0,0,3 * 1,450,-3,330,3,2 * 225.9889,"NIST 46.7","n.a." * 2025000,"Er(OH)3",0,-15.39,0,0,0,0,0,0,3 * 1,250,-3,330,3,2 * 218.2809,"NIST 46.7","n.a." * 2037000,"Ho(OH)3",0,-15.69,0,0,0,0,0,0,3 * 1,370,-3,330,3,2 * 215.9519,"NIST 46.7","n.a." * 2024000,"Dy(OH)3",0,-16.09,0,0,0,0,0,0,3 * 1,240,-3,330,3,2 * 213.5219,"NIST 46.7","n.a." * 2080100,"Tb(OH)3",0,-15.69,0,0,0,0,0,0,3 * 1,801,-3,330,3,2 * 209.9469,"NIST 46.7","n.a." * 2026000,"Eu(OH)3",0,-15.49,0,0,0,0,0,0,3 * 1,260,-3,330,3,2 * 202.9859,"NIST 46.7","n.a." * 2078000,"Sm(OH)3",0,-16.39,0,0,0,0,0,0,3 * 1,780,-3,330,3,2 * 201.3819,"NIST 46.7","n.a." * 2052000,"Nd(OH)3",0,-18.09,0,0,0,0,0,0,3 * 1,520,-3,330,3,2 * 195.2619,"NIST 46.7","n.a." * 2058500,"Pr(OH)3",0,-19.491,0,0,0,0,0,0,3 * 1,585,-3,330,3,2 * 191.9299,"NIST 46.7","n.a." * 2042000,"La(OH)3",0,-20.291,0,0,0,0,0,0,3 * 1,420,-3,330,3,2 * 189.9279,"NIST 46.7","n.a." * 2075000,"ScOOH",0,-12.291,0,0,0,0,0,0,3 * 1,750,-3,330,2,2 * 77.9626,"NIST 46.7","n.a." * 2080600,"Yb(OH)3",0,-15.39,0,0,0,0,0,0,3 * 1,806,-3,330,3,2 * 224.0619,"NIST 46.7","n.a." * 2080500,"Y(OH)3",0,-17.49,0,0,0,0,0,0,3 * 1,805,-3,330,3,2 * 139.9319,"NIST 46.7","n.a." * 2031000,"Gd(OH)3",0,-15.09,0,0,0,0,0,0,3 * 1,310,-3,330,3,2 * 208.2719,"NIST 46.7","n.a." * 2436100,"Hg(SCN)2",0,26.33,0,0,0,0,0,0,4 * 1,361,2,561,2,330,-2,2 * 316.7354,"NIST 46.7","n.a." * 2487000,"TlSCN",-66,3.77,0,0,0,0,0,0,2 * 1,870,1,561 * 262.44,"NIST 46.7","NIST 46.7" * 2402000,"AgSCN",-94.5,11.97,0,0,0,0,0,0,2 * 1,20,1,561 * 165.938,"NIST 46.7","NIST 46.7" * 2502000,"AgOCN",0,6.64,0,0,0,0,0,0,2 * 1,20,1,560 * 149.878,"NIST 46.7","n.a." * 3006000,"Arsenolite",-30.041,1.38,0,0,0,0,0,0,2 * 2,60,-3,2 * 395.6826,"NordArch02","NordArch02" * 3006001,"Claudetite",-28.443,1.34,0,0,0,0,0,0,2 * 2,60,-3,2 * 395.6826,"NordArch02","NordArch02" * 3006100,"As2O5",-3.16,34.69,0,0,0,0,0,0,3 * 2,61,6,330,-3,2 * 229.8401,"NIST2.1.1","NIST2.1.1" * 3060000,"Pb2O3",0,-61.04,0,0,0,0,0,0,4 * -6,330,-2,1,2,600,3,2 * 462.3985,"MTQ3.11","MTQ3.11" * 3060001,"Minium",421.874,-73.5219,-70.8,0,0,0,0,0,4 * -8,330,-2,1,3,600,4,2 * 685.598,"NIST13.1","NIST13.1" * 3003000,"Al2O3",258.5901,-19.6524,0,0,0,0,0,0,3 * 2,30,3,2,-6,330 * 101.9615,"CODATA89","CODATA89" * 3020001,"Co3O4",107.4999,10.4956,0,0,0,0,0,0,4 * 1,200,2,201,4,2,-8,330 * 240.7976,"NIST13.1","NIST13.1" * 3020002,"CoFe2O4",158.8199,3.5281,0,0,0,0,0,0,4 * 1,200,2,281,4,2,-8,330 * 234.6252,"NIST2.1.1","NIST2.1.1" * 3028000,"Magnetite",208.5259,-3.4028,-3.367,-6.595,0,0,0,0,4 * -8,330,2,281,1,280,4,2 * 231.539,"NIST13.1","NIST13.1" * 3028001,"Hercynite",313.9199,-22.893,0,0,0,0,0,0,4 * -8,330,1,280,2,30,4,2 * 173.808,"NIST2.1.1","NIST2.1.1" * 3028100,"Hematite",128.987,1.418,0,0,0,0,0,0,3 * 2,281,3,2,-6,330 * 159.6925,"NIST 46.7","NIST13.1" * 3028101,"Maghemite",0,-6.386,0,0,0,0,0,0,3 * -6,330,2,281,3,2 * 159.6925,"MTQ3.11","MTQ3.11" * 3028102,"Lepidocrocite",0,-1.371,0,0,0,0,0,0,3 * -3,330,1,281,2,2 * 88.8539,"MTQ3.11","MTQ3.11" * 3047000,"Hausmannite",421,-61.03,0,0,0,0,0,0,4 * 3,470,4,2,-8,330,-2,1 * 228.812,"Nord90","Nord90" * 3047100,"Bixbyite",124.49,.6445,2.226,.43,0,0,0,0,3 * -6,330,2,471,3,2 * 157.8745,"NIST2.1.1","NIST2.1.1" * 3021102,"Cr2O3 (c)",202.4,1.32,0,0,0,0,0,0,3 * 2,211,-1,2,-2,330 * 151.9905,"BallNord98","BallNord98" * 3090100,"V2O3",82.5085,-4.9,0,0,0,0,0,0,3 * -3,330,1,901,1.5,2 * 74.9417,"MTQ3.11","MTQ3.11" * 3090101,"V3O5",98.46,-1.8361,0,0,0,0,0,0,4 * -4,330,3,902,2,2,2,1 * 232.8247,"NIST2.1.1","NIST2.1.1" * 3090200,"V2O4",58.8689,-4.27,0,0,0,0,0,0,3 * -2,330,1,902,1,2 * 82.9414,"MTQ3.11","MTQ3.11" * 3090201,"V4O7",163.8901,-7.1865,0,0,0,0,0,0,4 * -6,330,4,902,3,2,2,1 * 315.7661,"NIST2.1.1","NIST2.1.1" * 3090300,"V2O5",-107.5,31.02,0,0,0,0,0,0,3 * 2,903,-3,2,4,330 * 181.8821,"MTQ3.11","MTQ3.11" * 3089100,"U4O9",426.8701,3.0198,0,-3.08,0,0,0,0,4 * -18,330,-2,1,4,891,9,2 * 1096.1111,"NIST2.1.1","NIST2.1.1" * 3089101,"U3O8",485.4399,-21.0834,0,-34.589,0,0,0,0,4 * -16,330,-4,1,3,891,8,2 * 842.0828,"CODATA89","CODATA89" * 3046000,"Spinel",388.0122,-36.8476,0,0,0,0,0,0,4 * -8,330,1,460,2,30,4,2 * 142.266,"NIST13.1","NIST13.1" * 3046001,"Magnesioferrite",278.9199,-16.8597,0,0,0,0,0,0,4 * -8,330,1,460,2,281,4,2 * 199.997,"NIST2.1.1","NIST2.1.1" * 3050000,"Natron",-65.8771,1.311,0,0,0,0,0,0,3 * 2,500,1,140,10,2 * 286.1418,"MTQ3.11","MTQ3.11" * 3023000,"Cuprous Ferrite",15.89,8.9171,0,6.88,0,0,0,0,4 * -4,330,1,230,1,281,2,2 * 151.392,"NIST2.1.1","NIST2.1.1" * 3023100,"Cupric Ferrite",210.2099,-5.9882,-5.35,0,0,0,0,0,4 * -8,330,1,231,2,281,4,2 * 239.238,"NIST2.1.1","NIST2.1.1" * 3021100,"FeCr2O4",140.4,-7.2003,0,0,0,0,0,0,3 * 2,211,1,280,-4,330 * 223.837,"NIST2.1.1","NIST2.1.1" * 3021101,"MgCr2O4",179.4,-16.2007,0,0,0,0,0,0,3 * 2,211,1,460,-4,330 * 192.295,"NIST2.1.1","NIST2.1.1" * 4274000,"SbF3",6.7279,10.2251,0,0,0,0,0,0,4 * 1,740,3,330,3,270,-3,2 * 178.743,"PNL89","PNL89" * 4260000,"PbF2",-20,7.44,0,0,0,0,0,0,2 * 1,600,2,270 * 245.1968,"NIST 46.7","NIST 46.7" * 4295000,"ZnF2",59.69,.5343,0,1.08,0,0,0,0,2 * 1,950,2,270 * 103.3868,"NIST2.1.1","NIST2.1.1" * 4216000,"CdF2",46.22,1.2124,0,0,0,0,0,0,2 * 1,160,2,270 * 150.4068,"NIST2.1.1","NIST2.1.1" * 4236000,"Hg2F2",18.486,10.3623,0,0,0,0,0,0,2 * 1,360,2,270 * 439.1768,"NIST13.1","NIST13.1" * 4223000,"CuF",-16.648,4.9056,0,0,0,0,0,0,2 * 1,230,1,270 * 82.5444,"NIST13.1","NIST13.1" * 4223100,"CuF2",66.901,-1.115,0,0,0,0,0,0,2 * 1,231,2,270 * 101.5428,"NIST13.1","NIST13.1" * 4223101,"CuF2:2H2O",15.2716,4.55,0,0,0,0,0,0,3 * 1,231,2,270,2,2 * 137.5734,"MTQ3.11","MTQ3.11" * 4202000,"AgF:4H2O",-15.4202,-1.0491,0,0,0,0,0,0,3 * 1,20,1,270,4,2 * 198.9278,"NIST2.1.1","NIST2.1.1" * 4220000,"CoF2",57.368,1.5969,0,0,0,0,0,0,2 * 1,200,2,270 * 96.93,"NIST13.1","NIST13.1" * 4220101,"CoF3",123.6921,1.4581,0,0,0,0,0,0,2 * 1,201,3,270 * 115.9284,"NIST13.1","NIST13.1" * 4221100,"CrF3",23.3901,11.3367,0,0,0,0,0,0,4 * 1,211,3,270,2,330,-2,2 * 108.9912,"NIST2.1.1","NIST2.1.1" * 4290200,"VF4",199.1166,-14.93,0,0,0,0,0,0,4 * -1,2,1,902,4,270,2,330 * 126.936,"MTQ3.11","MTQ3.11" * 4289100,"UF4",79.0776,29.5371,0,0,0,0,0,0,2 * 1,891,4,270 * 314.0225,"SCD3.02(1956DZa)","MTQ3.11" * 4289101,"UF4:2.5H2O",-24.325,32.7179,0,0,0,0,0,0,3 * 1,891,4,270,2.5,2 * 359.0607,"NIST2.1.1","NIST2.1.1" * 4246001,"MgF2",8,8.11,0,0,0,0,0,0,2 * 1,460,2,270 * 62.3018,"NIST 46.7","NIST 46.7" * 4215000,"Fluorite",-12,10.5,0,0,0,0,0,0,2 * 1,150,2,270 * 78.0748,"NIST 46.7","NIST 46.7" * 4280000,"SrF2",-4,8.58,0,0,0,0,0,0,2 * 1,800,2,270 * 125.6168,"NIST 46.7","NIST 46.7" * 4210000,"BaF2",-4,5.82,0,0,0,0,0,0,2 * 1,100,2,270 * 175.3268,"NIST 46.7","NIST 46.7" * 4250000,"Cryolite",-38,33.84,0,0,0,0,0,0,3 * 3,500,1,30,6,270 * 209.9413,"Nord90","Nord90" * 4213500,"CeF3",0,19.1,0,0,0,0,0,0,2 * 1,135,3,270 * 197.1112,"NIST 46.7","n.a." * 4250000,"NaF",-.8,.49,0,0,0,0,0,0,2 * 1,500,1,270 * 41.9882,"NIST 46.7","NIST 46.7" * 4203002,"AlOHF2",0,-.407,0,0,0,0,0,0,4 * 1,30,2,270,-1,330,1,2 * 81.9856,"NIST 46.7","n.a." * 4204500,"AmF3",0,16.59,0,0,0,0,0,0,2 * 1,45,3,270 * 299.9952,"NIST 46.7","n.a." * 4245000,"LuF3",0,16.29,0,0,0,0,0,0,2 * 1,450,3,270 * 231.9622,"NIST 46.7","n.a." * 4280602,"YbF3",0,16.29,0,0,0,0,0,0,2 * 1,806,3,270 * 230.0352,"NIST 46.7","n.a." * 4288000,"TmF3",0,17.09,0,0,0,0,0,0,2 * 1,880,3,270 * 225.9292,"NIST 46.7","n.a." * 4225000,"ErF3",0,18,0,0,0,0,0,0,2 * 1,250,3,270 * 224.2542,"NIST 46.7","n.a." * 4237000,"HoF3",0,17.09,0,0,0,0,0,0,2 * 1,370,3,270 * 221.9252,"NIST 46.7","n.a." * 4224000,"DyF3",0,17.59,0,0,0,0,0,0,2 * 1,240,3,270 * 219.4952,"NIST 46.7","n.a." * 4280100,"TbF3",0,17.99,0,0,0,0,0,0,2 * 1,801,3,270 * 215.9202,"NIST 46.7","n.a." * 4231002,"GdF3",0,18.09,0,0,0,0,0,0,2 * 1,310,3,270 * 214.2452,"NIST 46.7","n.a." * 4231000,"GdF3 x H2O (s)",0,16.9,0,0,0,0,0,0,3 * 1,310,3,270,.5,2 * 223.2529,"Spahiu95","Spahiu95" * 4280500,"YF3 x H2O (s)",0,16.9,0,0,0,0,0,0,3 * 1,805,3,270,.5,2 * 154.9129,"Spahiu95","Spahiu95" * 4280600,"YbF3 x H2O (s)",0,16,0,0,0,0,0,0,3 * 1,806,3,270,.5,2 * 239.0429,"Spahiu95","Spahiu95" * 4226000,"EuF3",0,21.9,0,0,0,0,0,0,2 * 1,260,3,270 * 208.9592,"NIST 46.7","n.a." * 4278000,"SmF3",0,19.19,0,0,0,0,0,0,2 * 1,780,3,270 * 207.3552,"NIST 46.7","n.a." * 4252000,"NdF3",0,20.3,0,0,0,0,0,0,2 * 1,520,3,270 * 201.2352,"NIST 46.7","n.a." * 4258500,"PrF3",0,20.19,0,0,0,0,0,0,2 * 1,585,3,270 * 197.9032,"NIST 46.7","n.a." * 4242000,"LaF3",0,18.7,0,0,0,0,0,0,2 * 1,420,3,270 * 195.9012,"NIST 46.7","n.a." * 4280502,"YF3",0,18.3,0,0,0,0,0,0,2 * 1,805,3,270 * 145.9052,"NIST 46.7","n.a." * 4244000,"LiF",-4.6,2.77,0,0,0,0,0,0,2 * 1,440,1,270 * 25.9374,"NIST 46.7","NIST 46.7" * 4146000,"Mg2(OH)3Cl:4H2O",0,-26,0,0,0,0,0,0,4 * 2,460,1,180,-3,330,7,2 * 207.1601,"Altma03","n.a." * 4174000,"SbCl3",35.18,-.5719,0,0,0,0,0,0,4 * 1,740,3,180,3,330,-3,2 * 228.1068,"NIST2.1.1","NIST2.1.1" * 4179001,"SnCl2",0,9.2752,0,0,0,0,0,0,4 * 1,790,-2,2,2,330,2,180 * 189.6158,"Bard85","MTQ3.11" * 4160000,"Cotunnite",-26.166,4.78,0,0,0,0,0,0,2 * 1,600,2,180 * 278.106,"NIST 46.7","NIST13.1" * 4160001,"Matlockite",-33.19,8.9733,0,8.6,0,0,0,0,3 * 1,600,1,180,1,270 * 261.6514,"NIST2.1.1","NIST2.1.1" * 4160002,"Phosgenite",0,19.81,19.94,0,0,0,0,0,3 * 2,600,2,180,1,140 * 545.3152,"MTQ3.11","MTQ3.11" * 4160003,"Laurionite",0,-.623,-.175,0,0,0,0,0,4 * -1,330,1,600,1,180,1,2 * 259.6604,"MTQ3.11","MTQ3.11" * 4160004,"Pb2(OH)3Cl",0,-8.793,0,0,0,0,0,0,4 * -3,330,2,600,3,2,1,180 * 500.8752,"MTQ3.11","MTQ3.11" * 4187000,"TlCl",-41,3.74,0,0,0,0,0,0,2 * 1,870,1,180 * 239.836,"NIST 46.7","NIST 46.7" * 4195000,"ZnCl2",72.5,-7.05,0,-7.06,0,0,0,0,2 * 1,950,2,180 * 136.296,"NIST2.1.1","NIST2.1.1" * 4195001,"Zn2(OH)3Cl",0,-15.191,0,0,0,0,0,0,4 * 2,950,3,2,-3,330,1,180 * 217.2552,"NIST46.4","MTQ3.11" * 4195002,"Zn5(OH)8Cl2",0,-38.5,0,0,0,0,0,0,4 * -8,330,5,950,8,2,2,180 * 533.9152,"MTQ3.11","MTQ3.11" * 4116000,"CdCl2",18.58,.6588,0,.47,0,0,0,0,2 * 1,160,2,180 * 183.316,"NIST2.1.1","NIST2.1.1" * 4116001,"CdCl2:1H2O",7.47,1.6932,0,0,0,0,0,0,3 * 1,160,2,180,1,2 * 201.3313,"NIST2.1.1","NIST2.1.1" * 4116002,"CdCl2:2.5H2O",-7.2849,1.913,0,0,0,0,0,0,3 * 1,160,2,180,2.5,2 * 228.3543,"NIST2.1.1","NIST2.1.1" * 4116003,"CdOHCl",30.93,-3.5373,-3.3,0,0,0,0,0,4 * -1,330,1,160,1,2,1,180 * 164.8704,"NIST2.1.1","NIST2.1.1" * 4136000,"Calomel",-92,17.91,0,0,0,0,0,0,2 * 1,360,2,180 * 472.086,"NIST46.4","NIST46.4" * 4136100,"HgCl2",-107.82,21.2621,0,0,0,0,0,0,4 * 1,361,2,180,2,330,-2,2 * 271.4912,"NIST13.1","NIST13.1" * 4123000,"Nantokite",-42.662,6.73,0,0,0,0,0,0,2 * 1,230,1,180 * 98.999,"NIST 46.6","NIST13.1" * 4123100,"Melanothallite",63.407,-6.2572,0,-4.45,0,0,0,0,2 * 1,231,2,180 * 134.452,"NIST13.1","NIST13.1" * 4123101,"Atacamite",93.43,-7.391,-7.24,-7.49,0,0,0,0,4 * 2,231,3,2,-3,330,1,180 * 213.5672,"NIST46.4","NIST46.4" * 4102000,"Cerargyrite",-65.2,9.75,0,0,0,0,0,0,2 * 1,20,1,180 * 143.3212,"NIST 46.7","NIST 46.7" * 4120000,"CoCl2",79.815,-8.2672,0,0,0,0,0,0,2 * 1,200,2,180 * 129.8392,"NIST13.1","NIST13.1" * 4120003,"CoCl2:6H2O",-8.0598,-2.5365,0,0,0,0,0,0,3 * 1,200,2,180,6,2 * 237.931,"NIST2.1.1","NIST2.1.1" * 4120101,"[Co(NH3)6]Cl3",33.1,-20.0317,0,0,0,0,0,0,4 * 1,201,6,490,-6,330,3,180 * 267.4758,"Bard85","Bard85" * 4120102,"[Co(NH3)5OH2]Cl3",25.37,-11.7351,0,0,0,0,0,0,5 * 1,201,5,490,-5,330,3,180,1,2 * 268.4605,"Bard85","Bard85" * 4120103,"[Co(NH3)5Cl]Cl2",10.74,-4.5102,0,0,0,0,0,0,4 * 1,201,5,490,-5,330,3,180 * 250.4452,"Bard85","Bard85" * 4128100,"Fe(OH)2.7Cl.3",0,3.04,0,0,0,0,0,0,4 * -2.7,330,1,281,2.7,2,.3,180 * 112.4029,"MTQ3.11","MTQ3.11" * 4147000,"MnCl2:4H2O",10.83,-2.7151,0,0,0,0,0,0,3 * 1,470,2,180,4,2 * 197.9052,"NIST2.1.1","NIST2.1.1" * 4121000,"CrCl2",110.76,-14.0917,0,0,0,0,0,0,2 * 1,210,2,180 * 122.9021,"NIST2.1.1","NIST2.1.1" * 4121100,"CrCl3",121.08,-15.1145,0,0,0,0,0,0,4 * 1,211,3,180,2,330,-2,2 * 158.355,"NIST2.1.1","NIST2.1.1" * 4190000,"VCl2",141.16,-18.8744,0,0,0,0,0,0,3 * 1,901,2,180,1,1 * 121.8485,"NIST2.1.1","NIST2.1.1" * 4190100,"VCl3",179.54,-23.4326,0,0,0,0,0,0,2 * 1,901,3,180 * 157.3015,"NIST2.1.1","NIST2.1.1" * 4190101,"VOCl",104.91,-11.1524,0,0,0,0,0,0,4 * 1,901,1,180,1,2,-2,330 * 102.395,"NIST2.1.1","NIST2.1.1" * 4190200,"VOCl2",117.76,-12.7603,0,0,0,0,0,0,2 * 1,902,2,180 * 137.8479,"NIST2.1.1","NIST2.1.1" * 4190300,"VO2Cl",40.28,13.05,0,0,0,0,0,0,4 * 1,903,1,180,3,330,-2,2 * 118.3943,"NIST2.1.1","NIST2.1.1" * 4111500,"BiOCl",-4,7.8,0,0,0,0,0,0,4 * 1,115,1,180,-2,330,1,2 * 260.4323,"NIST 46.7","NIST 46.7" * 4141000,"KCl",0,-.9,0,0,0,0,0,0,2 * 1,410,1,180 * 74.555,"NIST 46.7","n.a." * 4150000,"Halite",-3.7,-1.55,0,0,0,0,0,0,2 * 1,500,1,180 * 58.4428,"NIST 46.7","NIST13.1" * 4011500,"BiOBr",0,7.45,0,0,0,0,0,0,4 * 1,115,1,130,-2,330,1,2 * 304.8833,"NIST 46.7","n.a." * 4074000,"SbBr3",20.94,-.9689,0,0,0,0,0,0,4 * 1,740,3,130,3,330,-3,2 * 361.4598,"NIST2.1.1","NIST2.1.1" * 4079001,"SnBr2",0,9.5443,0,0,0,0,0,0,4 * 1,790,-2,2,2,330,2,130 * 278.5178,"Bard85","MTQ3.11" * 4079101,"SnBr4",0,28.8468,0,0,0,0,0,0,4 * 1,791,-6,2,6,330,4,130 * 438.3254,"Bard85","MTQ3.11" * 4060000,"PbBr2",-35.499,5.3,0,0,0,0,0,0,2 * 1,600,2,130 * 367.008,"NIST 46.7","NIST13.1" * 4060001,"PbBrF",0,8.49,0,0,0,0,0,0,3 * 1,600,1,130,1,270 * 306.1024,"MTQ3.11","MTQ3.11" * 4087000,"TlBr",-54,5.44,0,0,0,0,0,0,2 * 1,870,1,130 * 284.287,"NIST 46.7","NIST 46.7" * 4095000,"ZnBr2:2H2O",30.67,-5.2005,0,0,0,0,0,0,3 * 1,950,2,130,2,2 * 261.2286,"NIST2.1.1","NIST2.1.1" * 4016000,"CdBr2:4H2O",-30.5001,2.425,0,0,0,0,0,0,3 * 1,160,2,130,4,2 * 344.2792,"NIST2.1.1","NIST2.1.1" * 4036000,"Hg2Br2",-133,22.25,0,0,0,0,0,0,2 * 1,360,2,130 * 560.988,"NIST46.4","NIST46.4" * 4036100,"HgBr2",-138.492,25.2734,0,0,0,0,0,0,4 * 1,361,2,130,2,330,-2,2 * 360.3932,"NIST13.1","NIST13.1" * 4023000,"CuBr",-54.86,8.3,0,0,0,0,0,0,2 * 1,230,1,130 * 143.45,"NIST 46.7","NIST2.1.1" * 4023101,"Cu2(OH)3Br",93.43,-7.9085,0,0,0,0,0,0,4 * 2,231,3,2,-3,330,1,130 * 258.0182,"NIST46.4","NIST46.4" * 4002000,"Bromyrite",-84.5,12.3,0,0,0,0,0,0,2 * 1,20,1,130 * 187.7722,"NIST 46.7","NIST 46.7" * 4020101,"[Co(NH3)6]Br3",21.1899,-18.3142,0,0,0,0,0,0,4 * 1,201,6,490,-6,330,3,130 * 400.8288,"Bard85","Bard85" * 4020102,"[Co(NH3)5Cl]Br2",6.4,-5.0295,0,0,0,0,0,0,5 * 1,201,5,490,-5,330,1,180,2,130 * 339.3472,"Bard85","Bard85" * 4021100,"CrBr3",141.323,-19.9086,0,0,0,0,0,0,4 * 1,211,3,130,2,330,-2,2 * 291.708,"MTQ3.11","MTQ3.11" * 4357000,"PdI2",0,31.76,0,0,0,0,0,0,2 * 1,570,2,380 * 360.2288,"NIST 46.7","n.a." * 4306000,"AsI3",-3.15,-4.2307,0,0,0,0,0,0,4 * 1,60,3,380,3,330,-3,2 * 455.6349,"NIST2.1.1","NIST2.1.1" * 4374000,"SbI3",-13.5896,.538,0,0,0,0,0,0,4 * 1,740,3,330,3,380,-3,2 * 502.4613,"PNL89","PNL89" * 4360000,"PbI2",-62,8.1,0,0,0,0,0,0,2 * 1,600,2,380 * 461.009,"NIST 46.7","NIST 46.7" * 4387000,"TlI",-75,7.23,0,0,0,0,0,0,2 * 1,870,1,380 * 331.2875,"NIST 46.7","NIST 46.7" * 4395000,"ZnI2",58.92,-7.3055,0,0,0,0,0,0,2 * 1,950,2,380 * 319.199,"NIST2.1.1","NIST2.1.1" * 4316000,"CdI2",-13.82,3.5389,0,0,0,0,0,0,2 * 1,160,2,380 * 366.219,"NIST2.1.1","NIST2.1.1" * 4336000,"Hg2I2",-163,28.34,0,0,0,0,0,0,2 * 1,360,2,380 * 654.989,"NIST46.4","NIST46.4" * 4336100,"Coccinite",-210.7,34.92,0,0,0,0,0,0,4 * 1,361,-2,2,2,330,2,380 * 454.3942,"NIST 46.7","NIST 46.7" * 4336102,"HgI2:2NH3",-132.18,16.2293,0,0,0,0,0,0,4 * 1,361,2,380,2,490,-2,2 * 488.4554,"NIST2.1.1","NIST2.1.1" * 4336103,"HgI2:6NH3",90.3599,-33.7335,0,0,0,0,0,0,5 * 1,361,2,380,6,490,-2,2,-4,330 * 556.5778,"NIST2.1.1","NIST2.1.1" * 4323000,"CuI",-82.69,12,0,0,0,0,0,0,2 * 1,230,1,380 * 190.4505,"NIST 46.6","NIST2.1.1" * 4302000,"Iodyrite",-110,16.08,0,0,0,0,0,0,2 * 1,20,1,380 * 234.7727,"NIST 46.7","NIST 46.7" * 4320101,"[Co(NH3)6]I3",9.6999,-16.5831,0,0,0,0,0,0,4 * 1,201,6,490,-6,330,3,380 * 541.8303,"Bard85","Bard85" * 4320102,"[Co(NH3)5Cl]I2",-.66,-5.5981,0,0,0,0,0,0,5 * 1,201,5,490,-5,330,1,180,2,380 * 433.3482,"Bard85","Bard85" * 4321100,"CrI3",134.4194,-20.4767,0,0,0,0,0,0,4 * 1,211,3,380,2,330,-2,2 * 432.7095,"MTQ3.11","MTQ3.11" * 4449100,"AgNO2",-62,4.13,0,0,0,0,0,0,2 * 1,20,1,491 * 153.8735,"NIST 46.7","NIST 46.7" * 5060000,"Cerrusite",-24.79,13.2,0,0,0,0,0,0,2 * 1,600,1,140 * 267.2092,"NIST 46.7","NIST2.1.1" * 5060001,"Pb2OCO3",40.8199,.5578,.78,0,0,0,0,0,4 * -2,330,2,600,1,2,1,140 * 490.4087,"NIST2.1.1","NIST2.1.1" * 5060002,"Pb3O2CO3",110.5831,-11.02,0,0,0,0,0,0,4 * -4,330,3,600,1,140,2,2 * 713.6082,"MTQ3.11","MTQ3.11" * 5060003,"Hydrocerrusite",0,18.76,0,0,0,0,0,0,4 * 3,600,2,2,-2,330,2,140 * 775.6332,"NIST 46.7","n.a." * 5060004,"Pb10(OH)6O(CO3)6",0,8.76,0,0,0,0,0,0,4 * 10,600,6,140,7,2,-8,330 * 2550.0991,"NIST46.4","MTQ3.11" * 5087000,"Tl2CO3",-35.49,3.8367,0,0,0,0,0,0,2 * 2,870,1,140 * 468.7752,"NIST2.1.1","NIST2.1.1" * 5059000,"PuOHCO3",0,7.2,0,0,0,0,0,0,4 * 1,590,1,140,-1,330,1,2 * 321.0167,"Runde02","n.a." * 5059300,"PuO2CO3",0,14.3,0,0,0,0,0,0,2 * 1,593,1,140 * 335.9994,"Runde02","n.a." * 5055000,"K3NpO2(CO3)2",0,15.9,0,0,0,0,0,0,3 * 3,410,1,550,2,140 * 506.3148,"KaszRund99","n.a." * 5055001,"KNpO2CO3",0,13.6,0,0,0,0,0,0,3 * 1,410,1,550,1,140 * 368.1014,"KaszRund99","n.a." * 5055002,"Na3NpO2(CO3)2",0,14.28,0,0,0,0,0,0,3 * 3,500,1,550,2,140 * 457.9782,"KaszRund99","n.a." * 5055003,"NaNpO2CO3:3.5H2O",0,11.06,0,0,0,0,0,0,4 * 1,500,1,550,1,140,3.5,2 * 415.0428,"KaszRund99","n.a." * 5095000,"Smithsonite",3.8,10.9,0,0,0,0,0,0,2 * 1,950,1,140 * 125.3992,"PreGa01","PreGa01" * 5095001,"ZnCO3:1H2O",0,10.26,0,0,0,0,0,0,3 * 1,950,1,140,1,2 * 143.4145,"MTQ3.11","MTQ3.11" * 5095003,"Hydrozincite",236.5,-8.7,0,0,0,0,0,0,4 * 5,950,2,140,-6,330,6,2 * 548.9121,"PreGa01","PreGa01" * 5016000,"Otavite",-6.8,12.01,0,0,0,0,0,0,2 * 1,160,1,140 * 172.4192,"PreGa01","PreGa01" * 5036000,"Hg2CO3",-45.14,16.05,0,0,0,0,0,0,2 * 1,360,1,140 * 461.1892,"NIST46.4","NIST2.1.1" * 5036101,"Hg3O2CO3",0,29.58,0,0,0,0,0,0,4 * 3,361,-4,2,2,330,1,140 * 693.7639,"NIST 46.7","n.a." * 5023100,"CuCO3",0,11.5,0,0,0,0,0,0,2 * 1,231,1,140 * 123.5552,"NIST 46.7","n.a." * 5023101,"Malachite",44.2,5.469,0,0,0,0,0,0,4 * 2,231,2,2,-2,330,1,140 * 221.116,"PreGa01","PreGa01" * 5023102,"Azurite",40.6,17.4,0,0,0,0,0,0,4 * 3,231,2,2,-2,330,2,140 * 344.6712,"PreGa01","PreGa01" * 5002000,"Ag2CO3",-42.15,11.09,0,0,0,0,0,0,2 * 2,20,1,140 * 275.7456,"NIST 46.7","NIST2.1.1" * 5054000,"NiCO3",41.589,11.2,0,0,0,0,0,0,2 * 1,540,1,140 * 118.6992,"NIST 46.7","MTQ3.11" * 5020000,"CoCO3",12.7612,11.2,0,0,0,0,0,0,2 * 1,200,1,140 * 118.9424,"NIST 46.7","MTQ3.11" * 5028000,"Siderite",7.3,10.59,0,0,0,0,0,0,2 * 1,280,1,140 * 115.8562,"PreGa01","PreGa01" * 5047000,"Rhodochrosite",1.88,11,0,0,0,0,0,0,2 * 1,470,1,140 * 114.9472,"NIST 46.7","NIST2.1.1" * 5089300,"Rutherfordine",3.03,14.76,0,0,0,0,0,0,2 * 1,893,1,140 * 330.0369,"NEA_2003","NIST2.1.1" * 5046000,"Artinite",120.2565,-9.6,0,0,0,0,0,0,4 * -2,330,2,460,1,140,5,2 * 196.6799,"MTQ3.11","MTQ3.11" * 5046001,"Hydromagnesite",218.4466,8.766,0,0,0,0,0,0,4 * 5,460,4,140,-2,330,6,2 * 467.6378,"MTQ3.11","MTQ3.11" * 5046002,"Magnesite",-20,7.46,0,0,0,0,0,0,2 * 1,460,1,140 * 84.3142,"NIST 46.7","NIST 46.7" * 5046003,"Nesquehonite",24.2212,4.67,0,0,0,0,0,0,3 * 1,460,1,140,3,2 * 138.3601,"NIST 46.7","MTQ3.11" * 5046004,"MgCO3:5H2O",0,4.54,0,0,0,0,0,0,3 * 1,460,1,140,5,2 * 174.3979,"NIST 46.7","n.a." * 5015000,"Aragonite",8,8.34,0,0,0,0,0,0,2 * 1,150,1,140 * 100.0872,"PlumBus82","PlumBus82" * 5015001,"Calcite",8,8.48,0,0,0,0,0,0,2 * 1,150,1,140 * 100.0872,"PlumBus82","PlumBus82" * 5015006,"CaCO3xH2O",8,7.14,0,0,0,0,0,0,3 * 1,150,1,140,1,2 * 118.1047,"KraBre95","KraBre95" * 5015005,"Vaterite",8,7.91,0,0,0,0,0,0,2 * 1,150,1,140 * 100.0894,"PlumBus82","PlumBus82" * 5015002,"Dolomite (ordered)",39.5,17.09,0,0,0,0,0,0,3 * 1,150,1,460,2,140 * 184.4014,"Nord90","Nord90" * 5015004,"Dolomite (disordered)",46.4,16.54,0,0,0,0,0,0,3 * 1,150,1,460,2,140 * 184.4014,"Nord90","Nord90" * 5015003,"Huntite",107.7798,29.968,0,0,0,0,0,0,3 * 3,460,1,150,4,140 * 353.0298,"MTQ3.11","MTQ3.11" * 5080000,"Strontianite",1,9.27,0,0,0,0,0,0,2 * 1,800,1,140 * 147.6292,"NIST 46.7","NIST 46.7" * 5010000,"Witherite",-2,8.57,0,0,0,0,0,0,2 * 1,100,1,140 * 197.3392,"NIST 46.7","NIST 46.7" * 5050001,"Thermonatrite",10.4799,-.637,0,0,0,0,0,0,3 * 2,500,1,140,1,2 * 124.0041,"NIST2.1.1","NIST2.1.1" * 5095002,"ZnCO3",0,10.8,0,0,0,0,0,0,2 * 1,950,1,140 * 125.3793,"NIST 46.7","n.a." * 5047002,"MnCO3 (am)",0,10.5,0,0,0,0,0,0,2 * 1,470,1,140 * 114.9474,"NIST 46.7","n.a." * 5004500,"Am2(CO3)3",0,32.9,0,0,0,0,0,0,2 * 2,45,3,140 * 666.0282,"NIST 46.7","n.a." * 5004501,"Orthorhombite",0,8.2,0,0,0,0,0,0,4 * 1,45,1,140,-1,330,1,2 * 320.0167,"NIST 46.7","n.a." * 5024000,"Dy2(CO3)3",0,31.5,0,0,0,0,0,0,2 * 2,240,3,140 * 505.0282,"NIST 46.7","n.a." * 5026000,"Eu2(CO3)3",0,32.3,0,0,0,0,0,0,2 * 2,260,3,140 * 483.9562,"NIST 46.7","n.a." * 5078000,"Sm2(CO3)3",0,32.5,0,0,0,0,0,0,2 * 2,780,3,140 * 480.7482,"NIST 46.7","n.a." * 5052000,"Nd2(CO3)3",0,33,0,0,0,0,0,0,2 * 2,520,3,140 * 468.5082,"NIST 46.7","n.a." * 5042000,"La2(CO3)3",0,34.4,0,0,0,0,0,0,2 * 2,420,3,140 * 457.8402,"NIST 46.7","n.a." * 5080600,"Yb2(CO3)3 (s)",0,31.1,0,0,0,0,0,0,2 * 2,806,3,140 * 526.1082,"NIST 46.7","n.a." * 5031000,"Gd2(CO3)3 (s)",0,32.2,0,0,0,0,0,0,2 * 2,310,3,140 * 494.5282,"NIST 46.7","n.a." * 5080500,"Y2(CO3)3 x H2O (s)",0,33,0,0,0,0,0,0,3 * 2,805,3,140,1,2 * 375.86,"NIST 46.7","n.a." * 5055300,"NpO2CO3",0,14.76,0,0,0,0,0,0,2 * 1,553,1,140 * 328.9994,"NIST 46.7","n.a." * 5055000,"(NpO2)2CO3",0,10.14,0,0,0,0,0,0,2 * 2,550,1,140 * 597.9894,"NIST 46.7","n.a." * 5187000,"TlNO3",-42.44,1.6127,0,0,0,0,0,0,2 * 1,870,1,492 * 266.3879,"NIST2.1.1","NIST2.1.1" * 5195000,"Zn(NO3)2:6H2O",-24.5698,-3.3153,0,0,0,0,0,0,3 * 1,950,2,492,6,2 * 297.4916,"NIST2.1.1","NIST2.1.1" * 5123100,"Cu2(OH)3NO3",72.5924,-9.251,0,-9.31,0,0,0,0,4 * 2,231,3,2,-3,330,1,492 * 240.1191,"NIST46.4","MTQ3.11" * 5120101,"[Co(NH3)6](NO3)3",-1.59,-17.9343,0,0,0,0,0,0,4 * 1,201,6,490,-6,330,3,492 * 347.1315,"Bard85","Bard85" * 5120102,"[Co(NH3)5Cl](NO3)2",-6.4199,-6.2887,0,0,0,0,0,0,5 * 1,201,5,490,-5,330,1,180,2,492 * 303.549,"Bard85","Bard85" * 5189300,"UO2(NO3)2",83.3999,-12.1476,0,0,0,0,0,0,2 * 1,893,2,492 * 394.0375,"NIST2.1.1","NIST2.1.1" * 5189301,"UO2(NO3)2:2H2O",25.355,-4.851,0,0,0,0,0,0,3 * 1,893,2,492,2,2 * 430.0681,"MTQ3.11","MTQ3.11" * 5189302,"UO2(NO3)2:3H2O",9.1599,-3.39,0,0,0,0,0,0,3 * 1,893,2,492,3,2 * 448.0834,"NIST2.1.1","NIST2.1.1" * 5189303,"UO2(NO3)2:6H2O",-20.8201,-2.0464,0,0,0,0,0,0,3 * 1,893,2,492,6,2 * 502.1293,"NIST2.1.1","NIST2.1.1" * 5260000,"Pb(BO2)2",15.6119,-6.5192,0,0,0,0,0,0,4 * -2,2,-2,330,1,600,2,90 * 292.8196,"NIST13.1","NIST13.1" * 5295000,"Zn(BO2)2",0,-8.29,0,0,0,0,0,0,4 * -2,2,-2,330,1,950,2,90 * 151.0096,"MTQ3.11","MTQ3.11" * 5216000,"Cd(BO2)2",0,-9.84,0,0,0,0,0,0,4 * -2,2,-2,330,1,160,2,90 * 198.0296,"MTQ3.11","MTQ3.11" * 5220001,"Co(BO2)2",0,-27.0703,0,0,0,0,0,0,4 * 1,200,2,90,-2,2,-2,330 * 144.5528,"NIST2.1.1","MTQ3.11" * 6079001,"SnSO4",0,56.9747,0,0,0,0,0,0,4 * 1,790,-2,2,2,330,1,732 * 214.7728,"Bard85","MTQ3.11" * 6079101,"Sn(SO4)2",0,15.2123,0,0,0,0,0,0,4 * 1,791,-6,2,6,330,2,732 * 310.8354,"Bard85","MTQ3.11" * 6060000,"Larnakite",21.83,.4344,6.3,0,0,0,0,0,4 * -2,330,2,600,1,732,1,2 * 526.4625,"NIST2.1.1","NIST2.1.1" * 6060001,"Pb3O2SO4",79.14,-10.6864,0,0,0,0,0,0,4 * -4,330,3,600,1,732,2,2 * 749.662,"NIST2.1.1","NIST2.1.1" * 6060002,"Pb4O3SO4",136.4501,-21.8772,0,0,0,0,0,0,4 * -6,330,4,600,1,732,3,2 * 972.8615,"NIST2.1.1","NIST2.1.1" * 6060003,"Anglesite",-12,7.79,0,0,0,0,0,0,2 * 1,600,1,732 * 303.263,"NIST 46.7","NIST 46.7" * 6060004,"Pb4(OH)6SO4",0,-21.1,0,0,0,0,0,0,4 * -6,330,4,600,1,732,6,2 * 1026.9073,"MTQ3.11","MTQ3.11" * 6003000,"AlOHSO4",0,3.23,3.39,3.07,0,0,0,0,4 * -1,330,1,30,1,732,1,2 * 140.0519,"MTQ3.11","MTQ3.11" * 6003001,"Al4(OH)10SO4",0,-22.7,0,0,0,0,0,0,4 * -10,330,4,30,1,732,10,2 * 374.063,"MTQ3.11","MTQ3.11" * 6087000,"Tl2SO4",-33.1799,3.7868,0,0,0,0,0,0,2 * 2,870,1,732 * 504.829,"NIST2.1.1","NIST2.1.1" * 6095000,"Zn2(OH)2SO4",0,-7.5,0,0,0,0,0,0,4 * -2,330,2,950,2,2,1,732 * 260.8578,"MTQ3.11","MTQ3.11" * 6095001,"Zn4(OH)6SO4",0,-28.4,0,0,0,0,0,0,4 * -6,330,4,950,6,2,1,732 * 459.6674,"MTQ3.11","MTQ3.11" * 6095002,"Zn3O(SO4)2",258.0801,-18.9135,0,0,0,0,0,0,4 * -2,330,3,950,2,732,1,2 * 404.2955,"NIST2.1.1","NIST2.1.1" * 6095003,"Zincosite",82.586,-3.9297,0,-3.93,0,0,0,0,2 * 1,950,1,732 * 161.453,"NIST13.1","NIST13.1" * 6095004,"ZnSO4:1H2O",44.0699,.638,0,.5,0,0,0,0,3 * 1,950,1,732,1,2 * 179.4683,"NIST2.1.1","NIST2.1.1" * 6095005,"Bianchite",.6694,1.765,0,1.02,0,0,0,0,3 * 1,950,1,732,6,2 * 269.5448,"MTQ3.11","MTQ3.11" * 6095006,"Goslarite",-14.21,2.0112,0,1.87,0,0,0,0,3 * 1,950,1,732,7,2 * 287.5601,"NIST2.1.1","NIST2.1.1" * 6016000,"Cd3(OH)4SO4",0,-22.56,0,0,0,0,0,0,4 * -4,330,3,160,4,2,1,732 * 501.3226,"MTQ3.11","MTQ3.11" * 6016001,"Cd3OH2(SO4)2",0,-6.71,0,0,0,0,0,0,4 * -2,330,3,160,2,2,2,732 * 563.3708,"MTQ3.11","MTQ3.11" * 6016002,"Cd4(OH)6SO4",0,-28.4,0,0,0,0,0,0,4 * -6,330,4,160,6,2,1,732 * 647.7474,"MTQ3.11","MTQ3.11" * 6016003,"CdSO4",51.98,.1722,.13,.05,0,0,0,0,2 * 1,160,1,732 * 208.473,"NIST2.1.1","NIST2.1.1" * 6016004,"CdSO4:1H2O",31.5399,1.7261,1.68,1.63,0,0,0,0,3 * 1,160,1,732,1,2 * 226.4883,"NIST2.1.1","NIST2.1.1" * 6016005,"CdSO4:2.67H2O",17.9912,1.873,1.89,1.86,0,0,0,0,3 * 1,160,1,732,2.67,2 * 256.5739,"MTQ3.11","MTQ3.11" * 6036000,"Hg2SO4",-5.4,6.13,0,0,0,0,0,0,2 * 1,360,1,732 * 497.243,"NIST46.4","NIST46.4" * 6036100,"HgSO4",-14.6858,9.4189,0,0,0,0,0,0,4 * 1,361,1,732,2,330,-2,2 * 296.6482,"MTQ3.11","MTQ3.11" * 6023000,"Cu2SO4",19.079,1.95,0,0,0,0,0,0,2 * 2,230,1,732 * 223.155,"MTQ3.11","MTQ3.11" * 6023100,"Antlerite",0,-8.788,0,-8.9,0,0,0,0,4 * 3,231,4,2,-4,330,1,732 * 354.7307,"SCD3.02 (1958 SIa)","MTQ3.11" * 6023101,"Brochantite",202.86,-15.222,-15.15,-15.5,0,0,0,0,4 * 4,231,6,2,-6,330,1,732 * 452.2914,"NIST46.4","NIST46.4" * 6023102,"Langite",165.55,-17.4886,0,-17.4,0,0,0,0,4 * -6,330,4,231,7,2,1,732 * 470.3067,"NIST2.1.1","NIST2.1.1" * 6023103,"CuOCuSO4",137.777,-10.3032,0,0,0,0,0,0,4 * -2,330,2,231,1,2,1,732 * 239.1545,"NIST13.1","NIST13.1" * 6023104,"CuSO4",73.04,-2.9395,-2.63,-3.42,0,0,0,0,2 * 1,231,1,732 * 159.609,"CODATA89","CODATA89" * 6023105,"Chalcanthite",-6.025,2.64,2.96,2.135,0,0,0,0,3 * 1,231,1,732,5,2 * 249.6855,"MTQ3.11","MTQ3.11" * 6002000,"Ag2SO4",-17,4.82,0,0,0,0,0,0,2 * 2,20,1,732 * 311.7994,"NIST 46.7","NIST 46.7" * 6054000,"Ni4(OH)6SO4",0,-32,0,0,0,0,0,0,4 * -6,330,4,540,1,732,6,2 * 432.8674,"MTQ3.11","MTQ3.11" * 6054001,"Retgersite",-4.6024,2.04,0,0,0,0,0,0,3 * 1,540,1,732,6,2 * 262.8448,"MTQ3.11","MTQ3.11" * 6054002,"Morenosite",-12.1802,2.1449,0,0,0,0,0,0,3 * 1,540,1,732,7,2 * 280.8601,"NIST2.1.1","NIST2.1.1" * 6020000,"CoSO4",79.277,-2.8024,0,0,0,0,0,0,2 * 1,200,1,732 * 154.9962,"NIST13.1","NIST13.1" * 6020002,"CoSO4:6H2O",-1.0801,2.4726,0,0,0,0,0,0,3 * 1,200,1,732,6,2 * 263.088,"NIST2.1.1","NIST2.1.1" * 6028000,"Melanterite",-20.5,2.209,0,0,0,0,0,0,3 * 1,280,1,732,7,2 * 278.0171,"Nord90","Nord90" * 6028100,"Fe2(SO4)3",242.0281,3.7343,.65,0,0,0,0,0,2 * 2,281,3,732 * 399.883,"NIST13.1","NIST13.1" * 6028101,"H-Jarosite",223.25,5.39,0,0,0,0,0,0,4 * 3,281,2,732,-5,330,7,2 * 480.7346,"Kash75","DroNa03" * 6050000,"Na-Jarosite",135.74,5.32,0,0,0,0,0,0,5 * 1,500,3,281,2,732,-6,330,6,2 * 484.7012,"Kash75","DroNa03" * 6041002,"K-Jarosite",101.8,11,0,0,0,0,0,0,5 * 1,410,3,281,2,732,-6,330,6,2 * 500.8097,"BaronPa96","DroNa03" * 6047000,"MnSO4",64.8401,-2.5831,0,0,0,0,0,0,2 * 1,470,1,732 * 151.001,"NIST2.1.1","NIST2.1.1" * 6047100,"Mn2(SO4)3",163.427,5.711,0,0,0,0,0,0,2 * 2,471,3,732 * 398.065,"MTQ3.11","MTQ3.11" * 6090200,"VOSO4",86.7401,-3.6097,0,0,0,0,0,0,2 * 1,902,1,732 * 163.0049,"NIST2.1.1","NIST2.1.1" * 6046000,"Epsomite",-11.5601,2.1265,0,0,0,0,0,0,3 * 1,460,1,732,7,2 * 246.4751,"NIST2.1.1","NIST2.1.1" * 6015000,"Anhydrite",7.2,4.36,0,0,0,0,0,0,2 * 1,150,1,732 * 136.141,"Nord90","Nord90" * 6015001,"Gypsum",-1,4.61,0,0,0,0,0,0,3 * 1,150,1,732,2,2 * 172.1716,"NIST 46.7","NIST 46.7" * 6015002,"Ettringite",384.6,-56.85,0,0,0,0,0,0,5 * 6,150,2,30,3,732,-12,330,38,2 * 1255.1132,"PerkPa99","PerkPa99" * 6080000,"Celestite",-2,6.62,0,0,0,0,0,0,2 * 1,800,1,732 * 183.683,"NIST 46.7","NIST 46.7" * 6010000,"Barite",-23,9.98,0,0,0,0,0,0,2 * 1,100,1,732 * 233.393,"NIST 46.7","NIST 46.7" * 6050001,"Mirabilite",-79.4416,1.114,0,0,0,0,0,0,3 * 2,500,1,732,10,2 * 322.1956,"MTQ3.11","MTQ3.11" * 6050002,"Thenardite",9.121,-.3217,0,0,0,0,0,0,2 * 2,500,1,732 * 142.0426,"NIST13.1","NIST13.1" * 6041000,"K-Alum",-30.2085,5.17,0,0,0,0,0,0,4 * 1,410,1,30,2,732,12,2 * 474.3894,"MTQ3.11","MTQ3.11" * 6041001,"Alunite",210,1.4,0,0,0,0,0,0,5 * 1,410,3,30,2,732,-6,330,6,2 * 414.21,"Nord90","Nord90" * 6410000,"BaS2O3",0,4.79,0,0,0,0,0,0,2 * 1,100,1,733 * 249.46,"NIST 46.7","n.a." * 6502000,"Ag2SO3",0,13.82,0,0,0,0,0,0,2 * 2,20,1,734 * 295.798,"NIST 46.7","n.a." * 6515000,"CaSO3:0.5H2O",0,6.64,0,0,0,0,0,0,3 * 1,150,1,734,.5,2 * 129.1497,"NIST 46.7","n.a." * 3015001,"Cr(VI)-Ettringite",511.7,-60.29,0,0,0,0,0,0,5 * 6,150,2,30,3,212,-12,330,38,2 * 1314.9104,"PerkPa00","PerkPa00" * 3041000,"Cr(VI)-Jarosite",-19.1,18.4,0,0,0,0,0,0,5 * 1,410,3,281,2,212,-6,330,6,2 * 540.6748,"BaronPa96","BaronPa96" * 3049001,"(NH4)2CrO4",-9.163,-.4046,0,0,0,0,0,0,2 * 1,212,2,490 * 152.0707,"MTQ3.11","MTQ3.11" * 3060001,"PbCrO4",-44.18,12.6,0,0,0,0,0,0,2 * 1,600,1,212 * 323.1937,"NIST 46.7","NIST 46.7" * 3087000,"Tl2CrO4",-74.27,12.01,0,0,0,0,0,0,2 * 2,870,1,212 * 524.7597,"NIST 46.7","NIST2.1.1" * 3036000,"Hg2CrO4",0,8.7,0,0,0,0,0,0,2 * 1,360,1,212 * 517.1737,"NIST46.4","MTQ3.11" * 3021204,"CuCrO4",0,5.44,0,0,0,0,0,0,2 * 1,231,1,212 * 179.5397,"NIST 46.7","n.a." * 3021200,"Ag2CrO4",-62,11.59,0,0,0,0,0,0,2 * 2,20,1,212 * 331.7301,"NIST 46.7","NIST 46.7" * 3021208,"MgCrO4",88.9518,-5.3801,0,0,0,0,0,0,2 * 1,212,1,460 * 140.2987,"MTQ3.11","MTQ3.11" * 3015000,"CaCrO4",26.945,2.2657,0,0,0,0,0,0,2 * 1,150,1,212 * 156.0717,"MTQ3.11","MTQ3.11" * 3021214,"SrCrO4",10.1253,4.65,0,0,0,0,0,0,2 * 1,800,1,212 * 203.6137,"SCD3.02 (1942 DAa)","MTQ3.11" * 3021201,"BaCrO4",-33,9.67,0,0,0,0,0,0,2 * 1,100,1,212 * 253.3237,"NIST 46.7","NIST 46.7" * 3021207,"Li2CrO4",45.2792,-4.8568,0,0,0,0,0,0,2 * 1,212,2,440 * 129.8757,"MTQ3.11","MTQ3.11" * 3021210,"Na2CrO4",19.6301,-2.9302,0,0,0,0,0,0,2 * 1,212,2,500 * 161.9733,"NIST2.1.1","NIST2.1.1" * 3021211,"Na2Cr2O7",-22.1961,9.8953,0,0,0,0,0,0,4 * 2,212,2,500,2,330,-1,2 * 261.9675,"MTQ3.11","MTQ3.11" * 3021205,"K2CrO4",-18.2699,.5134,0,0,0,0,0,0,2 * 1,212,2,410 * 194.1903,"NIST2.1.1","NIST2.1.1" * 3021206,"K2Cr2O7",-80.7499,17.2424,0,0,0,0,0,0,4 * 2,212,2,410,2,330,-1,2 * 294.1845,"NIST2.1.1","NIST2.1.1" * 6136000,"Hg2SeO3",0,4.657,0,0,0,0,0,0,3 * 1,360,1,761,-1,330 * 528.1321,"MTQ3.11","MTQ3.11" * 6136100,"HgSeO3",0,12.4,0,0,0,0,0,0,4 * 1,361,-2,2,1,330,1,761 * 327.5373,"NIST 46.7","n.a." * 6102000,"Ag2SeO3",-39.7,7.15,0,0,0,0,0,0,3 * 2,20,1,761,-1,330 * 342.6885,"NIST 46.7","NIST 46.7" * 6123100,"CuSeO3:2H2O",36.861,-.62,0,0,0,0,0,0,4 * 1,231,1,761,-1,330,2,2 * 226.5287,"NIST 46.7","MTQ3.11" * 6154000,"NiSeO3:2H2O",31.0034,-2.8147,0,0,0,0,0,0,4 * 1,761,1,540,2,2,-1,330 * 221.6727,"MTQ3.11","MTQ3.11" * 6120000,"CoSeO3",0,-1.32,0,0,0,0,0,0,3 * 1,200,1,761,-1,330 * 185.8853,"NIST 46.7","n.a." * 6128100,"Fe2(SeO3)3:2H2O",0,20.6262,0,0,0,0,0,0,4 * 3,761,2,281,2,2,-3,330 * 528.5809,"MTQ3.11","MTQ3.11" * 6128101,"Fe2(OH)4SeO3",0,-1.5539,0,0,0,0,0,0,4 * 1,761,2,281,4,2,-5,330 * 306.6757,"MTQ3.11","MTQ3.11" * 6147000,"MnSeO3",0,-1.13,0,0,0,0,0,0,3 * 1,470,1,761,-1,330 * 181.8901,"NIST 46.7","n.a." * 6146000,"MgSeO3:6H2O",-5.23,-3.04,0,0,0,0,0,0,4 * 1,460,1,761,-1,330,6,2 * 259.3489,"NIST 46.7","MTQ3.11" * 6115000,"CaSeO3:2H2O",19.4556,-2.8139,0,0,0,0,0,0,4 * 1,761,1,150,2,2,-1,330 * 203.0607,"MTQ3.11","MTQ3.11" * 6180000,"SrSeO3",0,-2.3,0,0,0,0,0,0,3 * 1,800,1,761,-1,330 * 214.5721,"NIST 46.7","n.a." * 6110000,"BaSeO3",-12,-1.83,0,0,0,0,0,0,3 * 1,100,1,761,-1,330 * 264.2821,"NIST 46.7","NIST 46.7" * 6150001,"Na2SeO3:5H2O",0,-10.3,0,0,0,0,0,0,4 * 2,500,1,761,-1,330,5,2 * 263.0082,"NIST46.4","MTQ3.11" * 6160000,"PbSeO4",-15,6.84,0,0,0,0,0,0,2 * 1,600,1,762 * 350.15,"NIST 46.7","NIST 46.7" * 6187000,"Tl2SeO4",-43,4.1,0,0,0,0,0,0,2 * 2,870,1,762 * 551.716,"NIST 46.7","NIST 46.7" * 6195001,"ZnSeO4:6H2O",0,1.52,0,0,0,0,0,0,3 * 1,950,1,762,6,2 * 316.4318,"NIST 46.7","n.a." * 6116001,"CdSeO4:2H2O",0,1.85,0,0,0,0,0,0,3 * 1,160,1,762,2,2 * 291.3906,"NIST 46.7","n.a." * 6102001,"Ag2SeO4",43.5,8.91,0,0,0,0,0,0,2 * 2,20,1,762 * 358.6864,"NIST 46.7","NIST 46.7" * 6123101,"CuSeO4:5H2O",0,2.44,0,0,0,0,0,0,3 * 1,231,1,762,5,2 * 296.5725,"NIST 46.7","n.a." * 6154001,"NiSeO4:6H2O",0,1.52,0,0,0,0,0,0,3 * 1,540,1,762,6,2 * 309.7318,"NIST 46.7","n.a." * 6120001,"CoSeO4:6H2O",0,1.53,0,0,0,0,0,0,3 * 1,200,1,762,6,2 * 309.975,"NIST 46.7","n.a." * 6147002,"MnSeO4:5H2O",0,2.05,0,0,0,0,0,0,3 * 1,470,1,762,5,2 * 287.9645,"NIST 46.7","n.a." * 6189301,"UO2SeO4:4H2O",0,2.25,0,0,0,0,0,0,3 * 1,893,1,762,4,2 * 485.0389,"NIST 46.7","n.a." * 6146001,"MgSeO4:6H2O",0,1.2,0,0,0,0,0,0,3 * 1,460,1,762,6,2 * 275.3468,"NIST 46.7","n.a." * 6115001,"CaSeO4:2H2O",8.3,3.02,0,0,0,0,0,0,3 * 1,150,1,762,2,2 * 219.0586,"NIST 46.7","NIST 46.7" * 6180001,"SrSeO4",-.4,4.4,0,0,0,0,0,0,2 * 1,800,1,762 * 230.57,"NIST 46.7","NIST 46.7" * 6110001,"BaSeO4",-22,7.46,0,0,0,0,0,0,2 * 1,100,1,762 * 280.28,"NIST 46.7","NIST 46.7" * 6111001,"BeSeO4:4H2O",0,2.94,0,0,0,0,0,0,3 * 1,110,1,762,4,2 * 224.0234,"NIST 46.7","n.a." * 6150002,"Na2SeO4",0,-1.28,0,0,0,0,0,0,2 * 2,500,1,762 * 188.9296,"NIST46.4","MTQ3.11" * 6141001,"K2SeO4",0,.73,0,0,0,0,0,0,2 * 2,410,1,762 * 221.1466,"NIST46.4","MTQ3.11" * 6149001,"(NH4)2SeO4",0,-.45,0,0,0,0,0,0,2 * 2,490,1,762 * 179.027,"NIST46.4","MTQ3.11" * 6233001,"H2MoO4",-49,12.8765,0,0,0,0,0,0,2 * 1,480,2,330 * 161.9534,"Bard85","Bard85" * 6260001,"PbMoO4",-53.93,15.62,0,0,0,0,0,0,2 * 1,600,1,480 * 367.1376,"NIST46.4","NIST46.4" * 6203001,"Al2(MoO4)3",260.8,-2.3675,0,0,0,0,0,0,2 * 3,480,2,30 * 533.7758,"Bard85","Bard85" * 6287001,"Tl2MoO4",0,7.9887,0,0,0,0,0,0,2 * 1,480,2,870 * 568.7036,"Bard85","MTQ3.11" * 6295001,"ZnMoO4",10.6901,10.1254,0,0,0,0,0,0,2 * 1,480,1,950 * 225.3276,"Bard85","Bard85" * 6216001,"CdMoO4",-19.48,14.1497,0,0,0,0,0,0,2 * 1,480,1,160 * 272.3476,"Bard85","Bard85" * 6223101,"CuMoO4",-12.2,13.0762,0,0,0,0,0,0,2 * 1,480,1,231 * 223.4836,"Bard85","Bard85" * 6202001,"Ag2MoO4",-52.7,11.55,0,0,0,0,0,0,2 * 2,20,1,480 * 375.674,"NIST46.4","NIST46.4" * 6254001,"NiMoO4",-1.3,11.1421,0,0,0,0,0,0,2 * 1,480,1,540 * 218.6276,"Bard85","Bard85" * 6220001,"CoMoO4",23.3999,7.7609,0,0,0,0,0,0,2 * 1,480,1,200 * 218.8708,"Bard85","Bard85" * 6228001,"FeMoO4",11.1,10.091,0,0,0,0,0,0,2 * 1,480,1,280 * 215.7846,"Bard85","Bard85" * 6211001,"BeMoO4",56.4,1.7817,0,0,0,0,0,0,2 * 1,480,1,110 * 168.9498,"Bard85","Bard85" * 6246001,"MgMoO4",0,1.85,0,0,0,0,0,0,2 * 1,460,1,480 * 184.2426,"NIST46.4","MTQ3.11" * 6215001,"CaMoO4",2,7.95,0,0,0,0,0,0,2 * 1,150,1,480 * 200.0156,"NIST46.4","NIST46.4" * 6215002,"Powellite",30,7.92,0,0,0,0,0,0,2 * 1,150,1,480 * 200.0176,"Felm92","JP_Provis02" * 6210001,"BaMoO4",-10.96,6.9603,0,0,0,0,0,0,2 * 1,480,1,100 * 297.2676,"Bard85","Bard85" * 6244001,"Li2MoO4",33.9399,-2.4416,0,0,0,0,0,0,2 * 1,480,2,440 * 173.8196,"Bard85","Bard85" * 6250001,"Na2MoO4",9.98,-1.4901,0,0,0,0,0,0,2 * 1,480,2,500 * 205.9172,"Bard85","Bard85" * 6250002,"Na2MoO4:2H2O",0,-1.224,0,0,0,0,0,0,3 * 1,480,2,500,2,2 * 241.9478,"Bard85","MTQ3.11" * 6250003,"Na2Mo2O7",-56.2502,16.5966,0,0,0,0,0,0,4 * 2,480,2,500,-1,2,2,330 * 349.8553,"Bard85","Bard85" * 6241001,"K2MoO4",3.38,-3.2619,0,0,0,0,0,0,2 * 1,480,2,410 * 238.1342,"Bard85","Bard85" * 6333000,"H2WO4(s)",-20,15.4,0,0,0,0,0,0,2 * 1,804,2,330 * 249.84,"MartSmith76","JP_Provis02" * 6315000,"Scheelite",30,8.72,0,0,0,0,0,0,2 * 1,150,1,804 * 287.904,"WoodSam01","JP_Provis02" * 7013500,"CePO4",0,26.3,0,0,0,0,0,0,2 * 1,135,1,580 * 235.0874,"NIST 46.7","n.a." * 7060006,"PbHPO4",0,23.805,0,0,0,0,0,0,3 * 1,600,1,330,1,580 * 303.1793,"NIST 46.7","n.a." * 7060007,"Pb3(PO4)2",0,43.53,0,0,0,0,0,0,2 * 3,600,2,580 * 811.5428,"NIST46.4","MTQ3.11" * 7060001,"Pyromorphite",0,84.43,0,34.51,0,0,0,0,3 * 5,600,3,580,1,180 * 1356.3672,"MTQ3.11","MTQ3.11" * 7060002,"Hydroxylpyromorphite",0,62.79,0,0,0,0,0,0,4 * 5,600,3,580,1,2,-1,330 * 1337.9215,"MTQ3.11","MTQ3.11" * 7060003,"Plumbgummite",0,32.79,0,0,0,0,0,0,5 * -5,330,1,600,3,30,2,580,6,2 * 581.1396,"MTQ3.11","MTQ3.11" * 7060004,"Hinsdalite",0,2.5,0,0,0,0,0,0,6 * -6,330,1,600,3,30,1,580,1,732,6,2 * 581.2233,"MTQ3.11","MTQ3.11" * 7060005,"Tsumebite",0,9.79,0,0,0,0,0,0,5 * -3,330,2,600,1,231,1,580,6,2 * 677.9855,"MTQ3.11","MTQ3.11" * 7095000,"Zn3(PO4)2:4H2O",0,35.42,0,0,0,0,0,0,3 * 3,950,2,580,4,2 * 458.174,"NIST 46.7","n.a." * 7016000,"Cd3(PO4)2",0,32.6,0,0,0,0,0,0,2 * 3,160,2,580 * 527.1728,"MTQ3.11","MTQ3.11" * 7036000,"Hg2HPO4",0,24.775,0,0,0,0,0,0,3 * 1,360,1,330,1,580 * 497.1593,"NIST46.4","MTQ3.11" * 7023100,"Cu3(PO4)2",0,36.85,0,36.9,0,0,0,0,2 * 3,231,2,580 * 380.5808,"MTQ3.11","MTQ3.11" * 7023101,"Cu3(PO4)2:3H2O",0,35.12,0,0,0,0,0,0,3 * 3,231,2,580,3,2 * 434.6267,"MTQ3.11","MTQ3.11" * 7002000,"Ag3PO4",0,17.59,0,0,0,0,0,0,2 * 3,20,1,580 * 418.576,"NIST 46.7","n.a." * 7054000,"Ni3(PO4)2",0,31.3,0,0,0,0,0,0,2 * 3,540,2,580 * 366.0128,"MTQ3.11","MTQ3.11" * 7020000,"CoHPO4",0,19.0607,0,0,0,0,0,0,3 * 1,200,1,580,1,330 * 154.9125,"NIST2.1.1","MTQ3.11" * 7020001,"Co3(PO4)2",0,34.6877,0,0,0,0,0,0,2 * 3,200,2,580 * 366.7424,"NIST2.1.1","MTQ3.11" * 7028001,"Vivianite",-5.06,37.76,0,0,0,0,0,0,3 * 3,280,2,580,8,2 * 501.6062,"NIST 46.7","NIST 46.7" * 7028100,"Strengite",9.3601,26.4,0,0,0,0,0,0,3 * 1,281,1,580,2,2 * 186.849,"NIST 46.7","NIST2.1.1" * 7047000,"Mn3(PO4)2",-8.8701,23.827,0,0,0,0,0,0,2 * 3,470,2,580 * 354.7568,"MTQ3.11","MTQ3.11" * 7047001,"MnHPO4",0,25.4,0,0,0,0,0,0,3 * 1,470,1,580,1,330 * 150.9173,"MTQ3.11","MTQ3.11" * 7090200,"(VO)3(PO4)2",0,25.1,0,0,0,0,0,0,2 * 3,902,2,580 * 390.7685,"NIST 46.7","n.a." * 7046002,"Mg3(PO4)2",0,23.28,0,0,0,0,0,0,2 * 3,460,2,580 * 262.8578,"NIST 46.7","n.a." * 7046001,"MgHPO4:3H2O",0,18.175,0,0,0,0,0,0,4 * 1,460,1,330,1,580,3,2 * 174.3302,"NIST 46.7","n.a." * 7015002,"FCO3-Apatite",-164.8078,114.4,0,0,0,0,0,0,6 * 9.316,150,.36,500,.144,460,4.8,580,1.2,140,2.48,270 * 960.1327,"MTQ3.11","MTQ3.11" * 7015003,"Hydroxyapatite",0,44.333,0,0,0,0,0,0,4 * 5,150,3,580,1,2,-1,330 * 502.3116,"NIST 46.7","n.a." * 7015004,"CaHPO4:2H2O",-23,18.995,0,0,0,0,0,0,4 * 1,150,1,330,1,580,2,2 * 172.0879,"NIST 46.7","NIST 46.7" * 7015005,"CaHPO4",-31,19.275,0,0,0,0,0,0,3 * 1,150,1,330,1,580 * 136.0573,"NIST 46.7","NIST 46.7" * 7015006,"Ca3(PO4)2 (beta)",-54,28.92,0,0,0,0,0,0,2 * 3,150,2,580 * 310.1768,"NIST 46.7","NIST 46.7" * 7015007,"Ca4H(PO4)3:3H2O",0,47.08,0,0,0,0,0,0,4 * 4,150,1,330,3,580,3,2 * 500.28,"NIST 46.7","n.a." * 7080001,"SrHPO4",0,19.295,0,0,0,0,0,0,3 * 1,800,1,330,1,580 * 183.5993,"NIST 46.7","n.a." * 7010001,"BaHPO4",0,19.775,0,0,0,0,0,0,3 * 1,100,1,330,1,580 * 233.3093,"NIST 46.7","n.a." * 7089100,"U(HPO4)2:4H2O",-16.0666,51.584,0,0,0,0,0,0,4 * 1,891,2,580,2,330,4,2 * 502.0487,"MTQ3.11","MTQ3.11" * 7089300,"(UO2)3(PO4)2",-397.0616,49.4,0,0,0,0,0,0,2 * 3,893,2,580 * 1000.0259,"NIST 46.7","MTQ3.11" * 7089302,"UO2HPO4",0,24.225,0,0,0,0,0,0,3 * 1,893,1,330,1,580 * 366.007,"NIST 46.7","n.a." * 7059000,"PuPO4",0,24.6,0,0,0,0,0,0,2 * 1,590,1,580 * 338.9714,"Runde02","n.a." * 7049000,"Uramphite",-40.5848,51.749,0,0,0,0,0,0,3 * 2,893,2,490,2,580 * 766.0753,"MTQ3.11","MTQ3.11" * 7060000,"Przhevalskite",46.024,44.365,0,0,0,0,0,0,3 * 2,893,1,600,2,580 * 937.1982,"MTQ3.11","MTQ3.11" * 7023102,"Torbernite",66.5256,45.279,0,0,0,0,0,0,3 * 2,893,1,231,2,580 * 793.5443,"MTQ3.11","MTQ3.11" * 7028000,"Bassettite",83.2616,44.485,0,0,0,0,0,0,3 * 2,893,1,280,2,580 * 785.8452,"MTQ3.11","MTQ3.11" * 7046000,"Saleeite",84.4331,43.646,0,0,0,0,0,0,3 * 2,893,1,460,2,580 * 754.3032,"MTQ3.11","MTQ3.11" * 7015000,"Ningyoite",9.4977,53.906,0,0,0,0,0,0,4 * 1,891,1,150,2,580,2,2 * 504.0803,"MTQ3.11","MTQ3.11" * 7089301,"H-Autunite",15.0624,47.931,0,0,0,0,0,0,3 * 2,893,2,330,2,580 * 732.014,"MTQ3.11","MTQ3.11" * 7015001,"Autunite",59.9986,43.927,0,0,0,0,0,0,3 * 2,893,1,150,2,580 * 770.0762,"MTQ3.11","MTQ3.11" * 7080000,"Sr-Autunite",54.6012,44.457,0,0,0,0,0,0,3 * 2,893,1,800,2,580 * 817.6182,"MTQ3.11","MTQ3.11" * 7050000,"Na-Autunite",1.9246,47.409,0,0,0,0,0,0,3 * 2,893,2,500,2,580 * 775.9778,"MTQ3.11","MTQ3.11" * 7041000,"K-Autunite",-24.5182,48.244,0,0,0,0,0,0,3 * 2,893,2,410,2,580 * 808.1948,"MTQ3.11","MTQ3.11" * 7010000,"Uranocircite",42.2584,44.631,0,0,0,0,0,0,3 * 2,893,1,100,2,580 * 867.3282,"MTQ3.11","MTQ3.11" * 7039000,"InPO4",0,23.47,0,0,0,0,0,0,2 * 1,390,1,580 * 209.7894,"NIST 46.7","n.a." * 7029000,"GaPO4",0,22.84,0,0,0,0,0,0,2 * 1,290,1,580 * 164.6944,"NIST 46.7","n.a." * 7045000,"LuPO4",0,24.8,0,0,0,0,0,0,2 * 1,450,1,580 * 269.9384,"NIST 46.7","n.a." * 7080602,"YbPO4",0,24.9,0,0,0,0,0,0,2 * 1,806,1,580 * 268.0114,"NIST 46.7","n.a." * 7080000,"TmPO4",0,25,0,0,0,0,0,0,2 * 1,880,1,580 * 263.9054,"NIST 46.7","n.a." * 7025000,"ErPO4",0,25.1,0,0,0,0,0,0,2 * 1,250,1,580 * 262.2304,"NIST 46.7","n.a." * 7037000,"HoPO4",0,25.1,0,0,0,0,0,0,2 * 1,370,1,580 * 259.9014,"NIST 46.7","n.a." * 7024000,"DyPO4",0,25.2,0,0,0,0,0,0,2 * 1,240,1,580 * 257.4714,"NIST 46.7","n.a." * 7080100,"TbPO4",0,25.39,0,0,0,0,0,0,2 * 1,801,1,580 * 253.8964,"NIST 46.7","n.a." * 7031002,"GdPO4",0,25.6,0,0,0,0,0,0,2 * 1,310,1,580 * 252.2214,"NIST 46.7","n.a." * 7026000,"EuPO4",0,25.96,0,0,0,0,0,0,2 * 1,260,1,580 * 246.9354,"NIST 46.7","n.a." * 7078000,"SmPO4",0,26.19,0,0,0,0,0,0,2 * 1,780,1,580 * 245.3314,"NIST 46.7","n.a." * 7052000,"NdPO4",0,26.2,0,0,0,0,0,0,2 * 1,520,1,580 * 239.2114,"NIST 46.7","n.a." * 7058500,"PrPO4",0,26.4,0,0,0,0,0,0,2 * 1,585,1,580 * 235.8794,"NIST 46.7","n.a." * 7042000,"LaPO4",0,25.75,0,0,0,0,0,0,2 * 1,420,1,580 * 233.8774,"NIST 46.7","n.a." * 7080502,"YPO4",0,25.02,0,0,0,0,0,0,2 * 1,805,1,580 * 183.8814,"NIST 46.7","n.a." * 7031000,"GdPO4 x H2O(s)",0,24.3,0,0,0,0,0,0,3 * 1,310,1,580,1,2 * 270.2367,"Spahiu95","Spahiu95" * 7080600,"YbPO4 x H2O (s)",0,24.1,0,0,0,0,0,0,3 * 1,806,1,580,1,2 * 286.0267,"Spahiu95","Spahiu95" * 7080500,"YPO4 x H2O (s)",0,24.2,0,0,0,0,0,0,3 * 1,805,1,580,1,2 * 201.8967,"Spahiu95","Spahiu95" * 7210000,"BaHAsO4:H2O",0,24.64,0,0,0,0,0,0,4 * 1,100,1,61,1,330,1,2 * 295.2833,"Essing88","n.a." * 7245000,"LuAsO4",0,22.7,0,0,0,0,0,0,2 * 1,450,1,61 * 313.887,"NIST 46.7","n.a." * 7280600,"YbAsO4",0,22.7,0,0,0,0,0,0,2 * 1,806,1,61 * 311.96,"NIST 46.7","n.a." * 7288000,"TmAsO4",0,23.1,0,0,0,0,0,0,2 * 1,880,1,61 * 307.854,"NIST 46.7","n.a." * 7225000,"ErAsO4",0,22.5,0,0,0,0,0,0,2 * 1,250,1,61 * 306.179,"NIST 46.7","n.a." * 7237000,"HoAsO4",0,22.9,0,0,0,0,0,0,2 * 1,370,1,61 * 303.85,"NIST 46.7","n.a." * 7224000,"DyAsO4",0,23.8,0,0,0,0,0,0,2 * 1,240,1,61 * 301.42,"NIST 46.7","n.a." * 7280100,"TbAsO4",0,23.1,0,0,0,0,0,0,2 * 1,801,1,61 * 297.845,"NIST 46.7","n.a." * 7231000,"GdAsO4",0,21.7,0,0,0,0,0,0,2 * 1,310,1,61 * 296.17,"NIST 46.7","n.a." * 7226000,"EuAsO4",0,22.5,0,0,0,0,0,0,2 * 1,260,1,61 * 290.884,"NIST 46.7","n.a." * 7278000,"SmAsO4",0,22.7,0,0,0,0,0,0,2 * 1,780,1,61 * 289.28,"NIST 46.7","n.a." * 7252000,"NdAsO4",0,21.9,0,0,0,0,0,0,2 * 1,520,1,61 * 283.16,"NIST 46.7","n.a." * 7258500,"PrAsO4",0,22,0,0,0,0,0,0,2 * 1,585,1,61 * 279.828,"NIST 46.7","n.a." * 7242000,"LaAsO4",0,21.4,0,0,0,0,0,0,2 * 1,420,1,61 * 277.826,"NIST 46.7","n.a." * 7280500,"YAsO4",0,22.6,0,0,0,0,0,0,2 * 1,805,1,61 * 227.83,"NIST 46.7","n.a." * 7275000,"ScAsO4",0,26.7,0,0,0,0,0,0,2 * 1,750,1,61 * 183.876,"NIST 46.7","n.a." * 7260000,"Pb3(AsO4)2",0,35.5,0,0,0,0,0,0,2 * 3,600,2,61 * 899.4385,"MTQ3.11","MTQ3.11" * 7203000,"AlAsO4:2H2O",0,15.8,0,0,0,0,0,0,3 * 1,30,1,61,2,2 * 201.9314,"MTQ3.11","MTQ3.11" * 7295000,"Zn3AsO42:2.5H2O",0,27.5,0,0,0,0,0,0,3 * 3,950,2,61,2.5,2 * 519.0468,"MTQ3.11","MTQ3.11" * 7223100,"Cu3(AsO4)2:2H2O",0,35.1,0,0,0,0,0,0,3 * 3,231,2,61,2,2 * 504.5072,"MTQ3.11","MTQ3.11" * 7202001,"Ag3AsO3",0,-2.1573,0,0,0,0,0,0,3 * 3,20,1,60,-3,330 * 446.5245,"NIST46.4","MTQ3.11" * 7202002,"Ag3AsO4",0,23.5,0,0,0,0,0,0,2 * 3,20,1,61 * 462.5239,"NIST 46.7","n.a." * 7254000,"Ni3(AsO4)2:8H2O",0,25.5,0,0,0,0,0,0,3 * 3,540,2,61,8,2 * 598.0309,"MTQ3.11","MTQ3.11" * 7220001,"Co3(AsO4)2",0,28.2,0,0,0,0,0,0,2 * 3,200,2,61 * 454.6382,"NIST2.1.1","MTQ3.11" * 7228100,"FeAsO4:2H2O",0,20.2,0,0,0,0,0,0,3 * 1,281,1,61,2,2 * 230.7969,"MTQ3.11","MTQ3.11" * 7247000,"Mn3(AsO4)2:8H2O",0,28.7,0,0,0,0,0,0,3 * 3,470,2,61,8,2 * 586.775,"MTQ3.11","MTQ3.11" * 7215000,"Ca3(AsO4)2:4H2O",0,18.9,0,0,0,0,0,0,3 * 3,150,2,61,4,2 * 470.1338,"MTQ3.11","MTQ3.11" * 7349000,"NH4VO3",-46.7,12.46,0,0,0,0,0,0,4 * 1,490,1,903,1,330,-1,2 * 181.8821,"NIST46.4","NIST46.4" * 7360000,"Pb3(VO4)2",-52.31,24.16,0,0,0,0,0,0,3 * -2,330,3,600,2,903 * 851.4807,"MTQ3.11","MTQ3.11" * 7360001,"Pb2V2O7",-98,32.2,0,0,0,0,0,0,3 * 2,600,2,903,-1,2 * 628.2811,"MTQ3.11","MTQ3.11" * 7302000,"AgVO3",0,14.38,0,0,0,0,0,0,4 * 1,330,1,20,1,903,-1,2 * 206.809,"MTQ3.11","MTQ3.11" * 7302001,"Ag2HVO4",0,13.67,0,0,0,0,0,0,2 * 2,20,1,903 * 331.6846,"MTQ3.11","n.a." * 7302002,"Ag3H2VO5",0,9.97,0,0,0,0,0,0,4 * -1,330,3,20,1,903,1,2 * 456.5602,"MTQ3.11","n.a." * 7328000,"Fe(VO3)2",-63.27,34.02,0,0,0,0,0,0,4 * 2,330,1,280,2,903,-2,2 * 253.7286,"MTQ3.11","MTQ3.11" * 7347000,"Mn(VO3)2",-32.47,25.4,0,0,0,0,0,0,4 * 2,330,1,470,2,903,-2,2 * 252.8196,"MTQ3.11","MTQ3.11" * 7346000,"Mg(VO3)2",11.71,19.02,0,0,0,0,0,0,4 * 2,330,1,460,2,903,-2,2 * 222.1866,"MTQ3.11","MTQ3.11" * 7346001,"Mg2V2O7",130.28,3.94,0,0,0,0,0,0,3 * 2,460,2,903,-1,2 * 262.4911,"MTQ3.11","MTQ3.11" * 7346002,"Carnotite",-26.07,14.92,0,0,0,0,0,0,4 * -1,330,1,410,1,893,1,903 * 424.0663,"MTQ3.11","MTQ3.11" * 7315000,"Tyuyamunite",28.16,26.22,0,0,0,0,0,0,4 * -2,330,1,150,2,893,2,903 * 810.014,"MTQ3.11","MTQ3.11" * 7315001,"Ca(VO3)2",-40.17,24.64,0,0,0,0,0,0,4 * 2,330,1,150,2,903,-2,2 * 237.9596,"MTQ3.11","MTQ3.11" * 7315002,"Ca3(VO4)2",168.56,-8.66,0,0,0,0,0,0,3 * -2,330,3,150,2,903 * 350.1146,"MTQ3.11","MTQ3.11" * 7315003,"Ca2V2O7",34.56,12.8,0,0,0,0,0,0,3 * 2,150,2,903,-1,2 * 294.0371,"MTQ3.11","MTQ3.11" * 7315004,"Ca3(VO4)2:4H2O",0,-8.06,0,0,0,0,0,0,4 * 3,150,2,903,4,2,-2,330 * 422.1758,"NIST46.4","n.a." * 7315005,"Ca2V2O7:2H2O",0,10.25,0,0,0,0,0,0,3 * 2,150,2,903,1,2 * 330.0677,"NIST46.4","n.a." * 7310001,"Ba3(VO4)2:4H2O",0,-1.14,0,0,0,0,0,0,4 * 3,100,2,903,4,2,-2,330 * 713.9318,"NIST46.4","n.a." * 7310002,"Ba2V2O7:2H2O",0,15.93,0,0,0,0,0,0,3 * 2,100,2,903,1,2 * 524.5717,"NIST46.4","n.a." * 7350000,"NaVO3",30.1799,12.04,0,0,0,0,0,0,4 * 1,330,1,500,1,903,-1,2 * 121.9306,"NIST2.1.1","NIST2.1.1" * 7350001,"Na3VO4",184.61,-20.78,0,0,0,0,0,0,3 * -1,330,3,500,1,903 * 183.9097,"NIST2.1.1","NIST2.1.1" * 7350002,"Na4V2O7",76.16,-7.1,0,0,0,0,0,0,3 * 4,500,2,903,-1,2 * 305.8403,"MTQ3.11","MTQ3.11" * 7460000,"Pb-Oxalate",0,8.94,0,0,0,0,0,0,2 * 1,600,1,991 * 295.1939,"NIST 46.6","n.a." * 7480200,"Th-(Oxalate)2:6H2O",0,23.93,0,0,0,0,0,0,3 * 1,802,2,991,6,2 * 516.1398,"NIST 46.6","n.a." * 7480600,"Yb2-(Oxalate)3",0,28.91,0,0,0,0,0,0,2 * 2,806,3,991 * 610.092,"NIST 46.6","n.a." * 7452000,"Nd2-(Oxalate)3",0,31.11,0,0,0,0,0,0,2 * 2,520,3,991 * 552.492,"NIST 46.6","n.a." * 7410000,"Ba-Oxalate",0,6.86,0,0,0,0,0,0,2 * 1,100,1,991 * 225.344,"NIST 46.6","n.a." * 7480000,"Sr-Oxalate",0,7.26,0,0,0,0,0,0,2 * 1,800,1,991 * 175.624,"NIST 46.6","n.a." * 7415000,"Ca-Oxalate:3H2O",0,8.32,0,0,0,0,0,0,3 * 1,150,1,991,3,2 * 182.1299,"NIST 46.6","n.a." * 7415001,"Ca-Oxalate:H2O",0,8.75,0,0,0,0,0,0,3 * 1,150,1,991,1,2 * 146.0993,"NIST 46.6","n.a." * 7446000,"Mg-Oxalate",0,5.68,0,0,0,0,0,0,2 * 1,460,1,991 * 112.316,"NIST 46.6","n.a." * 7442000,"La2-(Oxalate)3",0,28.22,0,0,0,0,0,0,2 * 2,420,3,991 * 541.824,"NIST 46.6","n.a." * 7502000,"Ag-Acetate",0,2.71,0,0,0,0,0,0,2 * 1,20,1,992 * 166.913,"NIST 46.6","n.a." * 8603000,"Halloysite",181.4297,-9.5749,0,0,0,0,0,0,4 * 2,30,2,770,1,2,-6,330 * 258.1607,"NIST2.1.1","NIST2.1.1" * 8603001,"Kaolinite",148,-7.435,0,0,0,0,0,0,4 * 2,30,2,770,1,2,-6,330 * 258.1607,"Nord90","Nord90" * 8628000,"Greenalite",0,-20.81,0,0,0,0,0,0,4 * -6,330,3,280,2,770,1,2 * 371.7387,"MTQ3.11","MTQ3.11" * 8646000,"Chrysotile",196,-32.2,0,0,0,0,0,0,4 * 3,460,2,770,1,2,-6,330 * 277.1127,"Nord90","Nord90" * 8646003,"Sepiolite",114.0893,-15.76,0,0,0,0,0,0,4 * 2,460,3,770,-4,330,-.5,2 * 323.9155,"Nord90","MTQ3.11" * 8646004,"Sepiolite (A)",0,-18.78,0,0,0,0,0,0,4 * -.5,2,2,460,3,770,-4,330 * 323.9155,"MTQ3.11","MTQ3.11" * @ * REDOX * 5500010,"Np+4/NpO2+1",0,10.07,0,0,0,0,0,0,5 * 1,550,1,1,-1,552,4,330,-2,2 * 0,"KaszRund99","n.a." * 5930010,"PuO2+1/PuO2+2",0,15.86,0,0,0,0,0,0,3 * 1,593,1,1,-1,592 * 0,"Runde02","n.a." * 5900010,"Pu+4/PuO2+",0,16.63,0,0,0,0,0,0,5 * 1,592,1,1,-1,591,4,330,-2,2 * 0,"Runde02","n.a." * 5910010,"Pu+3/Pu+4",0,17.65,0,0,0,0,0,0,3 * 1,591,1,1,-1,590 * 0,"Runde02","n.a." * 2802810,"Fe+2/Fe+3",-42.7,13.032,0,0,0,0,0,0,3 * 1,281,-1,280,1,1 * 0,"Bard85","Bard85" * 600610,"H3AsO3/AsO4",-138.85,39.987,0,0,0,0,0,0,5 * 1,61,2,1,5,330,-1,60,-1,2 * 0,"NordArch02","NordArch02" * 7407410,"Sb(OH)3/Sb(OH)6-",0,24.31,0,0,0,0,0,0,5 * -1,740,1,741,2,1,3,330,-3,2 * 0,"Bard85","MTQ3.11" * 8918930,"U+4/UO2+2",-144.1,9.216,0,0,0,0,0,0,5 * 1,893,2,1,4,330,-1,891,-2,2 * 0,"MTQ3.11","MTQ3.11" * 4704710,"Mn+2/Mn+3",-107.8,25.35,0,0,0,0,0,0,3 * -1,470,1,1,1,471 * 0,"Bard85","MTQ3.11" * 2002010,"Co+2/Co+3",0,32.4,0,0,0,0,0,0,3 * 1,201,-1,200,1,1 * 0,"Bard85","MTQ3.11" * 2302310,"Cu+1/Cu+2",6.9,2.69,0,0,0,0,0,0,3 * 1,231,1,1,-1,230 * 0,"Bard85","MTQ3.11" * 9009010,"V+2/V+3",0,-4.31,0,0,0,0,0,0,3 * 1,901,1,1,-1,900 * 0,"Bard85","MTQ3.11" * 9019020,"V+3/VO+2",0,5.696,0,0,0,0,0,0,5 * 1,902,1,1,-1,901,-1,2,2,330 * 0,"Bard85","MTQ3.11" * 9029030,"VO+2/HVO4-",-185.1,32.08,0,0,0,0,0,0,5 * 1,903,1,1,5,330,-1,902,-3,2 * 0,"Bard85","MTQ3.11" * 7307320,"HS-/SO4-2",-60.14,33.66,0,0,0,0,0,0,5 * 1,732,9,330,8,1,-1,730,-4,2 * 0,"MTQ3.11","MTQ3.11" * 7907910,"Sn(OH)2/Sn(OH)6-2",0,19.2,0,0,0,0,0,0,5 * 1,791,2,1,-1,790,-4,2,4,330 * 0,"Bard85","MTQ3.11" * 8708710,"Tl+/Tl(OH)3",0,45.55,0,0,0,0,0,0,5 * 1,871,2,1,3,330,-1,870,-3,2 * 0,"Bard85","MTQ3.11" * 7607610,"HSe-/HSeO3-",0,44.86,0,0,0,0,0,0,5 * 1,761,6,1,6,330,-1,760,-3,2 * 0,"Bard85","MTQ3.11" * 7617620,"HSeO3-/SeO4-2",-201.2,36.308,0,0,0,0,0,0,5 * 1,762,2,1,3,330,-1,761,-1,2 * 0,"Bard85","MTQ3.11" * 3603610,"Hg2+2/Hg(OH)2",-63.59,43.185,0,0,0,0,0,0,5 * 2,361,4,330,2,1,-1,360,-4,2 * 0,"Bard85","MTQ3.11" * 2102110,"Cr+2/Cr(OH)2+",6.36,2.947,0,0,0,0,0,0,5 * -1,210,-2,2,1,211,2,330,1,1 * 0,"MTQ3.11","MTQ3.11" * 2112120,"Cr(OH)2+/CrO4-2",-103,67.376,0,0,0,0,0,0,5 * 1,212,6,330,3,1,-1,211,-2,2 * 0,"MTQ3.11","MTQ3.11" * @ * GASES * 7343303,"SO2 (g)",48.4,8.95,0,0,0,0,0,0,3 * 1,734,2,330,-1,2 * 64.0627,"NIST 46.7","NIST 46.7" * 3300021,"O2 (g)",571.66,-83.0894,0,0,0,0,0,0,3 * 2,2,-4,330,-4,1 * 31.999,"CODATA89","CODATA89" * 3301404,"CH4 (g)",-257.133,41.0452,0,0,0,0,0,0,4 * 1,140,8,1,10,330,-3,2 * 16.0423,"NIST13.1","NIST13.1" * 3301403,"CO2 (g)",-10,18.149,0,0,0,0,0,0,3 * 2,330,1,140,-1,2 * 44.0097,"PlumBus82","PlumBus82" * 3307302,"H2S (g)",0,8.01,0,0,0,0,0,0,2 * 1,330,1,730 * 34.0809,"NIST 46.6","n.a." * 3307602,"H2Se (g)",15.3,4.96,0,0,0,0,0,0,2 * 1,760,1,330 * 80.9679,"NIST46.4","NIST46.4" * 3600001,"Hg (g)",-22.055,7.8733,0,0,0,0,0,0,2 * .5,360,1,1 * 200.59,"CODATA89","CODATA89" * 3600002,"Hg2 (g)",-58.07,14.9554,0,0,0,0,0,0,2 * 1,360,2,1 * 401.18,"NIST2.1.1","NIST2.1.1" * 3304901,"NH3 (g)",86,-11.01,0,0,0,0,0,0,2 * 1,490,-1,330 * 17.0306,"ParkApp99","ParkApp99" * 3611400,"Hg(CH3)2 (g)",-481.9899,73.7066,0,0,0,0,0,0,5 * 1,361,2,140,16,1,20,330,-8,2 * 230.654,"NIST2.1.1","NIST2.1.1" * 3602700,"HgF (g)",254.844,-32.6756,0,0,0,0,0,0,2 * .5,360,1,270 * 219.5884,"NIST13.1","NIST13.1" * 3612700,"HgF2 (g)",165.186,-12.5652,0,0,0,0,0,0,4 * 1,361,2,270,2,330,-2,2 * 238.582,"NIST13.1","NIST13.1" * 0,"",0,0,0,0,0,0,0,0,0 * 0,"","" * @ * * ******************************* end thermo.mdb ******************************** * * ********************************* analyt.mdb ********************************** * "Power functions to equilibrium constants for Visual MINTEQ" * 5015001,"Calcite",171.9065,.077993,-2839.319,-71.595,0,0,0 * 4215000,"Fluorite",-109.25,-.0024,3120.98,37.624,.00000049,2088.47,298.4 * 5015000,"Aragonite",171.9773,.077993,-2903.293,-71.595,0,0,0 * 5015005,"Vaterite",172.1295,.077993,-3074.688,-71.595,0,0,0 * 5015006,"CaCO3xH2O",21.16,-.1016,0,0,.0001831,0,0 * 5089300,"Rutherfordine",-4.54,.03318,2716,0,0,0,0 * 0,0,0,0,0,0,0,0,0 * 307320,"AlSO4+",4546.525,1.256856,-124194.5,-1818.96,0,0,0 * 307321,"Al(SO4)2-",4939.103,1.418846,-132438.8,-1985.24,0,0,0 * 3307700,"H3SiO4-",6.368,-.016346,-3405.9,0,0,0,0 * 3307701,"H2SiO4-2",39.478,-.065927,-12355.1,0,0,0,0 * 4603300,"MgOH+",-3.53,.00513,-2917.1,0,0,0,0 * 3300900,"H2BO3-",24.3919,.012078,-1343.9,-13.2258,0,0,0 * 3304900,"NH3 (aq)",.6322,-.001225,-2835.76,0,0,0,0 * 3301400,"HCO3-",107.8871,.03252849,-5151.79,-38.92561,0,563713.9,0 * 3301401,"H2CO3* (aq)",464.1965,.09344813,-26986.16,-165.75951,0,2248628.9,0 * 3301403,"CO2 (g)",355.81,.07359737,-20066.63,-125.30797,0,1579263.9,0 * 4107320,"KSO4-",3.106,0,-673.6,0,0,0,0 * 4601400,"MgCO3 (aq)",.991,.00667,0,0,0,0,0 * 4601401,"MgHCO3+",-4.179,.012734,2902.39,0,.0000229812,0,0 * 1501400,"CaHCO3+",1202.622,.33673,-31863.05,-478.782,0,0,0 * 3307320,"HSO4-",-5.3505,.0183412,557.2461,0,0,0,0 * 3307300,"H2S (aq)",-11.17,.02386,3279,0,0,0,0 * 2313304,"Cu2(OH)2+2",2.497,0,-3833,0,0,0,0 * 1501401,"CaCO3 (aq)",-1228.732,-.299444,35512.75,485.518,0,0,0 * 8033300,"Ti(OH)3+",-202.26,0,12067,66.961,0,0,0 * 8033301,"Ti(OH)5-",-144.94,0,6064.5,46.109,0,0,0 * 8913300,"UOH+3",-9.16,.0285,0,0,0,0,0 * 8931400,"UO2CO3 (aq)",-9.56,.03434,2809,0,0,0,0 * 8931401,"UO2(CO3)2-2",14.14,.0096,0,0,0,0,0 * 8937320,"UO2SO4 (aq)",11.384,-.07088,0,0,.000140277,0,0 * 8937321,"UO2(SO4)2-2",12.13,-.068297,0,0,.00013987,0,0 * 0,0,0,0,0,0,0,0,0 * 0,0,0,0,0,0,0,0,0 * 0,0,0,0,0,0,0,0,0 * 0,0,0,0,0,0,0,0,0 * 0,0,0,0,0,0,0,0,0 * 0,0,0,0,0,0,0,0,0 * 0,0,0,0,0,0,0,0,0 * 0,0,0,0,0,0,0,0,0 * * ******************************* end analyt.mdb