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- [1] THERMOCHEMISTRY OF INORGANIC SULFUR-COMPOUNDS .7. STANDARD MOLAR ENTHALPY OF FORMATION AT 298.15-K, HIGH-TEMPERATURE ENTHALPY INCREMENTS, AND OTHER THERMODYNAMIC PROPERTIES TO 1100-K OF TITANIUM DISULFIDE, TIS2JOURNAL OF CHEMICAL THERMODYNAMICS, 1986, 18 (02): : 189 - 199OHARE, PAGJOHNSON, GK
- [2] THERMOCHEMISTRY OF INORGANIC SULFUR-COMPOUNDS .8. NA2SO3 AND K2SO3 - STANDARD MOLAR ENTHALPIES OF SOLUTION AND FORMATION AT 298.15-K, HIGH-TEMPERATURE ENTHALPY INCREMENTS AND HEAT-CAPACITIES, AND TEMPERATURES AND ENTHALPIES OF TRANSITION - A NEW VALUE FOR THE STANDARD MOLAR ENTHALPY OF FORMATION OF SO3(2-)(AQ)JOURNAL OF CHEMICAL THERMODYNAMICS, 1986, 18 (08): : 765 - 786OHARE, PAGJENSEN, KJJOHNSON, GK
- [3] Thermodynamic properties of {(NH4)2SO4(aq)+Li2SO4(aq)} and {(NH4)2SO4(aq)+Na2SO4(aq)} at a temperature of 298.15 KJOURNAL OF CHEMICAL THERMODYNAMICS, 2002, 34 (08): : 1329 - 1339Mounir, AEl Guendouzi, MDinane, A
- [4] COMBUSTION CALORIMETRY OF RHOMBOHEDRAL SULFUR IN FLUORINE - A QUESTION OF IMPURITIES - THE STANDARD MOLAR ENTHALPIES OF FORMATION OF SF6(G) AND SO(4)2-(AQ) AT THE TEMPERATURE 298.15-KJOURNAL OF CHEMICAL THERMODYNAMICS, 1992, 24 (10): : 1009 - 1017OHARE, PAGSUSMAN, SVOLIN, KJROWLAND, SC
- [5] RUBIDIUM CHROMATE - STANDARD MOLAR ENTHALPIES OF SOLUTION AND FORMATION AND THE STANDARD MOLAR ENTROPY AT 298.15-K, ENTHALPY INCREMENTS RELATIVE TO 298.15-K, THE HIGH-TEMPERATURE HEAT-CAPACITY, AND TEMPERATURES, ENTHALPIES, AND ENTROPIES OF TRANSITION AND MELTING - THERMODYNAMIC PROPERTIES OF RB2CRO4 FROM 298.15-K TO 1500-KJOURNAL OF CHEMICAL THERMODYNAMICS, 1985, 17 (04): : 391 - 400OHARE, PAGJOHNSON, GK
- [6] CALORIMETRIC MEASUREMENTS OF THE LOW-TEMPERATURE HEAT-CAPACITY, STANDARD MOLAR ENTHALPY OF FORMATION AT 298.15-K, AND HIGH-TEMPERATURE MOLAR ENTHALPY INCREMENTS RELATIVE TO 298.15-K OF TUNGSTEN DISULFIDE (WS2), AND THE THERMODYNAMIC PROPERTIES TO 1500-KJOURNAL OF CHEMICAL THERMODYNAMICS, 1984, 16 (01): : 45 - 59OHARE, PAGHUBBARD, WNJOHNSON, GKFLOTOW, HE
- [7] THERMOCHEMISTRY OF URANIUM-COMPOUNDS .7. SOLUTION CALORIMETRY OF ALPHA-NA2UO4 AND BETA-NA2UO4, STANDARD ENTHALPY OF FORMATION OF BETA-NA2UO4, AND ENTHALPY OF ALPHA TO BETA TRANSITION AT 298.15-KJOURNAL OF CHEMICAL THERMODYNAMICS, 1976, 8 (03): : 255 - 258OHARE, PAGHOEKSTRA, HRFREDERICKSON, DR
- [8] THERMOCHEMISTRY OF URANIUM-COMPOUNDS .16. CALORIMETRIC DETERMINATION OF THE STANDARD MOLAR ENTHALPY OF FORMATION AT 298.15-K, LOW-TEMPERATURE HEAT-CAPACITY, AND HIGH-TEMPERATURE ENTHALPY INCREMENTS OF UO2(OH)2.H2O (SCHOEPITE)CANADIAN JOURNAL OF CHEMISTRY-REVUE CANADIENNE DE CHIMIE, 1988, 66 (04): : 620 - 625TASKER, IROHARE, PAGLEWIS, BMJOHNSON, GKCORDFUNKE, EHP
- [9] THERMOCHEMISTRY OF (GERMANIUM+SULFUR) .3. MASSIC ENERGIES OF COMBUSTION IN FLUORINE AND THE DERIVED STANDARD MOLAR ENTHALPIES OF FORMATION OF CRYSTALLINE AND VITREOUS GERMANIUM(IV) DISULFIDE GES2 AT THE TEMPERATURE T=298.15-K - STANDARD MOLAR ENTHALPY OF THE TRANSITION GES2(CR)=GES2(VIT) AT T=298.15-K - CRITICAL-ASSESSMENT OF THERMODYNAMIC QUANTITIES FOR THE HIGH-TEMPERATURE REACTION - GES2(CR)=GES(G)+1/2S(2)(G)JOURNAL OF CHEMICAL THERMODYNAMICS, 1995, 27 (01): : 99 - 110OHARE, PAGVOLIN, KJSUSMAN, S
- [10] Thermochemistry of (germanium + sulfur). III. Massic energies of combustion in fluorine and the derived standard molar enthalpies of formation of crystalline and vitreous germanium(IV) disulfide GeS2 at the temperature T = 298.15 K. Standard molar enthalpy of the transition GeS2(cr) = GeS2(vit) at T = 298.15 K. Critical assessment of thermodynamic quantities for the high-temperature reaction: GeS2(cr) = GeS(g) + 1/2S2(g)Journal of Chemical Thermodynamics, 27 (01):O'Hare, P. A. G.Volin, K. J.Susman, S.