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Vaporization of Compounds and Alloys at High Temperatures. Part XVII. Thermodynamic Study of Tin Selenide and Tin Telluride Using a Mass Spectrometer.

AD607792

Publication Date	1964
Personal Author	Colin, R.; Drowart, J.
Page Count	2
Abstract	In a mass spectrometric investigation of the vapor in equilibrium with solid SnSe and solid SnTe, a number of reaction enthalpies were measured and from known thermochemical data, the following thermochemical values were calculated: enathapy of formation at 298 degrees of SnSe and SnTe; dissociation energy of SnSe and SnTe; enthalpy of dimerization at 298 degrees of SnSe, SnTe, and SnTe2. The dissociation energies were compared to the available spectroscopic data.
Keywords	VAPORIZATION SELENIUM ALLOYS TELLURIUM ALLOYS TIN ALLOYS MASS SPECTROSCOPY MATERIALS ENTHALPY DISSOCIATION SUBLIMATION HIGH-TEMPERATURE RESEARCH INTERMETALLIC COMPOUNDS TIN COMPOUNDS SELENIUM COMPOUNDS TELLEURIUM COMPOUNDS
Corporate Authors	Brussels Univ (Belgium)
Document Type	Technical Report
NTIS Issue Number	196501
Contract Number	AF61 052 225

Vaporization of Compounds and Alloys at High Temperatures. Part XVII. Thermodynamic Study of Tin Selenide and Tin Telluride Using a Mass Spectrometer.

Vaporization of Compounds and Alloys at High Temperatures. Part XVII. Thermodynamic Study of Tin Selenide and Tin Telluride Using a Mass Spectrometer.
AD607792

Publication Date	1964
Personal Author	Colin, R.; Drowart, J.
Page Count	2
Abstract	In a mass spectrometric investigation of the vapor in equilibrium with solid SnSe and solid SnTe, a number of reaction enthalpies were measured and from known thermochemical data, the following thermochemical values were calculated: enathapy of formation at 298 degrees of SnSe and SnTe; dissociation energy of SnSe and SnTe; enthalpy of dimerization at 298 degrees of SnSe, SnTe, and SnTe2. The dissociation energies were compared to the available spectroscopic data.
Keywords	VAPORIZATION SELENIUM ALLOYS TELLURIUM ALLOYS TIN ALLOYS MASS SPECTROSCOPY MATERIALS ENTHALPY DISSOCIATION SUBLIMATION HIGH-TEMPERATURE RESEARCH INTERMETALLIC COMPOUNDS TIN COMPOUNDS SELENIUM COMPOUNDS TELLEURIUM COMPOUNDS
Corporate Authors	Brussels Univ (Belgium)
Document Type	Technical Report
NTIS Issue Number	196501
Contract Number	AF61 052 225