98 results on '"O'Hare, P.A.G."'
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2. Thermodynamic properties of vanadium silicides II. Standard molar enthalpy of formationΔfHmo(298.15 K) and reassessed thermodynamic properties of trivanadium monosilicide (V3Si)
3. Thermodynamic properties of vanadium silicides. I. Standard molar enthalpy of formationΔfHmoof vanadium disilicide (VSi2) at the temperature 298.15 K
4. Thermodynamics of silicon nitride. I. Standard molar enthalpies of formation ΔfHmoat the temperature 298.15 K of α-Si3N4and β-Si3N4
5. Obituary
6. Standard molar enthalpies of formation of alloys in the pseudobinary system Zr(Al xCo 1 − x) 2 at the temperature 298.15 K
7. Thermodynamic properties of the zeolite stilbite
8. Thermodynamic stability of orthorhombic black phosphorus
9. Thermochemical studies of inorganic chalcogenides by fluorine-combustion calorimetry: binary compounds of germanium and silicon with sulfur, selenium and tellurium
10. The energy difference between the crystalline and vitreous forms of germanium diselenide as determined by combustion calorimetry in fluorine. The Ge-Se bond energy
11. The enthalpies of formation of iodine pentafluoride and iodine heptafluoride
12. Heat capacity (5 to 350 K) and recommended thermodynamic properties of barium uranate (BaUO 4) to 1100 K
13. Cesium chromate, Cs 2CrO 4: high-temperature enthalpy increments and other thermodynamic properties
14. Thermochemical study of cesium dichromate
15. Enthalpy increments for α- and β-Na 2UO 4 and Cs 2UO 4 by drop calorimetry The enthalpy of the α to β transition in Na 2UO 4
16. The standard molar enthalpy of formation at 298.15 K of VS 1.043 by combustion calorimetry in fluorine
17. Standard molar enthalpy of formation by fluorine-combustion calorimetry of tungsten diselenide (WSe 2). Thermodynamics of the high-temperature vaporization of WSe 2. Revised value of the standard molar enthalpy of formation of molybdenite (MoS 2)
18. Lithium nitride (Li 3N): standard enthalpy of formation by solution calorimetry
19. Thermochemistry of uranium compounds XII. Standard enthalpies of formation of the α and β modifications of uranium pentafluoride The enthalpy of the β-to-α transition at 298.15 K
20. Thermochemistry of uranium compounds XIII. Standard enthalpies of formation at 298.15 K of α-uranium oxide tetrafluoride (UOF 4) and uranyl fluoride (UO 2F 2) Thermodynamics of (uranium + oxygen + fluorine)
21. The thermodynamic properties of Na 2UO 4, Na 2U 2O 7, and NaUO 3
22. Thermochemistry of inorganic sulfur compounds VII. Standard molar enthalpy of formation at 298.15 K, high-temperature enthalpy increments, and other thermodynamic properties to 1100 K of titanium disulfide, TiS 2
23. Standard molar enthalpies of formation and transition at the temperature 298.15 K and other thermodynamic properties of the crystalline and vitreous forms of arsenic sesquiselenide (As 2Se 3). Dissociation enthalpies of AsSe bonds
24. Thermodynamic properties of silicides I. calorimetric measurements of the specific energy of combustion in fluorine of hyperstoichiometric tungsten disilicide, and the derived standard molar enthalpy of formation Δ fHom(WSi 2.060) at the temperature 298.15 K
25. Thermodynamic studies of zeolites: clinoptilolite
26. Thermochemistry of uranium compounds VII. Solution calorimetry of α- and β-Na 2UO 4, standard enthalpy of formation of β-Na 2UO 4, and the enthalpy of the α to β transition at 298.15 K
27. The standard molar enthalpy of formation at 298.15 K of S 2N +AsF 6− by fluorine combustion calorimetry
28. Thermodynamic properties of tungsten ditelluride (WTe 2) II. Standard molar enthalpy of formation at the temperature 298.15 K
29. Combustion calorimetry of rhombohedral sulfur in fluorine: a question of impurities. The standard molar enthalpies of formation of SF 6(g) and SO 2−4(aq) at the temperature 298.15 K
30. 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 (WS 2), and the thermodynamic properties to 1500 K
31. Thermochemistry of uranium compounds XIV. Standard molar enthalpy of formation at 298.15 K of AgUF 6 and its relation to the thermodynamics of fluorination of AgF to AgF 2
32. Standard molar enthalpy of formation at 298.15 K of the β-modification of molybdenum ditelluride
33. Thermochemistry of uranium compounds XI. Standard enthalpy of formation of γ-UO 3
34. Thermochemistry of molybdates V. Standard enthalpy of formation of cesium dimolybdate (Cs 2Mo 2O 7)
35. Standard enthalpy of solution and formation of cesium chromate. Derived thermodynamic properties of the aqueous chromate, bichromate, and dichromate ions, alkali metal and alkaline earth chromates, and lead chromate
36. The standard enthalpy of formation at 298.15 K of Cs 4CrO 4
37. Thermochemistry of octasulfur-bis-hexafluoroarsenate S 8(AsF 6) 2 containing the lattice-stabilized S 82+
38. Calorimetric measurements on high-purity ScI 3
39. A fluorine-combustion calorimetric study of two molybdenum selenides: MoSe 2 and Mo 6Se 6
40. The low-temperature (5 to 310 K) heat capacity and thermodynamic functions of cesium fluoroxysulfate (CsSO 4F) and the standard potential at 298.15 K for the half-reaction: SO 4F −(aq) + 2H +(aq) + 2e − = HSO 4−(aq) + HF(aq)
41. Thermochemistry of uranium compounds XVII. Standard molar enthalpy of formation at 298.15 K of dehydrated schoepite UO 3 · 0.9H 2O. Thermodynamics of (schoepite + dehydrated schoepite + water)
42. Thermochemistry of inorganic sulfur compounds V. Peroxymonosulfate revisited: standard molar enthalpies of formation of KHSO 5·H 2O(cr), KHSO 5(cr), and HSO 5−(aq)
43. Thermodynamic properties of tricesium chromium(V) tetroxide (Cs 3CrO 4)
44. Cesium diuranate (Cs 2U 2O 7): heat capacity (5 to 350 K) and thermodynamic functions to 350 K. A re-evaluation of the standard enthalpy of formation and the thermodynamics of (cesium + uranium + oxygen)
45. Heat capacity from 5 to 350 K and thermodynamic properties of cesium nitrate to 725 K
46. Thermochemistry of uranium compounds VIII. Standard enthalpies of formation at 298.15 K of the uranates of calcium (CaUO 4) and barium (BaUO 4). Thermodynamics of the behavior of barium in nuclear fuels
47. Thermochemistry of inorganic sulfur compounds III. The standard molar enthalpy of formation at 298.15 K of US 1.992 (β-uranium disulfide) by fluorine bomb calorimetry
48. Thermochemistry of uranium compounds VI. Standard enthalpy of formation of cesium diuranate (Cs 2U 2O 7). Thermodynamics of formation of cesium and rubidium uranates at elevated temperatures
49. Thermochemistry of uranium compounds IX. Standard enthalpy of formation and high-temperature thermodynamic functions of magnesium uranate (MgUO 4) A comment on the non-existence of beryllium uranate
50. Calorimetric measurements of the specific energies of reaction of arsenic and of selenium with fluorine. Standard molar enthalpies of formation Δ fHom at the temperature 298.15 K of AsF 5, SeF 6, As 2Se 3, As 4S 4, and As 2S 3. Thermodynamic properties of AsF 5 and SeF 6 in the ideal-gas state. Critical assessment of Δ fHom(AsF 3, l), and the dissociation enthalpies of As-F bonds
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