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1315-06-6
SnSe
503400PC
99.999%
<12mm
215-257-6
Class 9
UN3077
PGIII
Characteristic
Tin selenide, also known as stannous selenide, is an inorganic compound with the formula (SnSe), where Tin has a +2 oxidation state. Tin(II) selenide is a narrow band-gap (IV-VI) semiconductor and has received considerable interest for applications including low-cost photovoltaics and memory-switching devices.
Chemical formula:SnSe
Molar mass:197.67 g/mol
Appearance:steel gray odorless powder
Density:6.179 g/cm3
Melting point:861 °C (1,582 °F; 1,134 K)
Solubility in water:negligible
Band gap:0.9 eV (indirect), 1.3 eV (direct)
Crystal structure:Orthorhombic, oP8
Application
Tin selenide finds application in low- cost photovoltaics devices and memory-switching devices. It acts as a solid-state lubricant. It is also used for solar cells and anodes for lithium-ion batteries. Further, it is a narrow band-gap semiconductor.
Characteristic
Tin selenide, also known as stannous selenide, is an inorganic compound with the formula (SnSe), where Tin has a +2 oxidation state. Tin(II) selenide is a narrow band-gap (IV-VI) semiconductor and has received considerable interest for applications including low-cost photovoltaics and memory-switching devices.
Chemical formula:SnSe
Molar mass:197.67 g/mol
Appearance:steel gray odorless powder
Density:6.179 g/cm3
Melting point:861 °C (1,582 °F; 1,134 K)
Solubility in water:negligible
Band gap:0.9 eV (indirect), 1.3 eV (direct)
Crystal structure:Orthorhombic, oP8
Application
Tin selenide finds application in low- cost photovoltaics devices and memory-switching devices. It acts as a solid-state lubricant. It is also used for solar cells and anodes for lithium-ion batteries. Further, it is a narrow band-gap semiconductor.
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