Tin triphosphide

Tin triphosphide is a binary inorganic compound of tin metal and phosphorus with the chemical formula SnP₃.

Structure

X-ray crystallography reveals that tin triphosphide is not a triphosphide. It is a hexaphosphide, with P₆^6- rings. These ruffled P₆ rings form three short (2.66 Å) and three long (2.95 Å) Sn-P bonds. The result is that Sn(II) adopts highly distorted octahedral geometry. The structure of tin triphosphide resembles that of gray arsenic, which also features corrugated, linked six-membered (As₆) rings, wherein each arsenic atom has a highly distorted octahedral geometry. Germanium triphosphide and tin triphosphide are similar structurally as well.

Tin triphosphide forms triclinic crystals, spatial group R3m with six formula units in a unit cell of dimensions a = 7.378 Å and c = 10.512 Å.

Preparation and occurrence

Tin triphosphide can be formed from the fusion of stoichiometric amounts of both elements at 580 °C:

Sn 3P → SnP₃

SnP₃ has been evaluated for use in energy storage devices.

Related compounds

• SnP, which has the sodium chloride structure.
• Sn₄P₃

References