Diphosphane, or diphosphine, is an inorganic compound with the chemical formula . This colourless liquid is one of several binary phosphorus hydrides. It is the impurity that typically causes samples of phosphine to ignite in air.
Properties, preparation, reactions
Diphosphane adopts the gauche conformation (like
hydrazine, less symmetrical than shown in the image) with a P−P distance of 2.219
. It is nonbasic, unstable at room temperature, and
Pyrophoricity. It is only poorly soluble in water but dissolves in organic solvents. Its
1H NMR spectrum consists of 32 lines resulting from an A
2XX'A'
2 splitting system.
Diphosphane is produced by the hydrolysis of calcium monophosphide, which can be described as the Ca2+ derivative of . According to an optimized procedure, hydrolysis of 400 g of CaP at −30 °C gives about 20 g of product, slightly contaminated with phosphine.
Reaction of diphosphane with butyllithium affords a variety of condensed polyphosphine compounds.
Organic diphosphanes
A variety of organic derivatives of diphosphane are known, but asymmetric diphosphanes are only stable at cryogenic temperatures. Otherwise, the substituents facily redistribute on the phosphorus centers to give a mixture of products. On the other hand, there appears to be a substantial barrier to
chiral inversion.
The central bond is weak, and easily adds substituents.
The simplest synthesis method heats a phosphorus halide and a phosphane:
Alkali metals can replace the hydrogen in that reaction (i.e., a dialkyl
phosphide), and in some rare cases a dialkylamine can replace the halide. Symmetric diphosphanes are easily prepared by reductive coupling, e.g. tetraphenyldiphosphine from chlorodiphenylphosphine:
Ultraviolet radiation decomposes mercury(II) dialkylphosphides to the metal and a dialkylphosphane.
The methyl compound is prepared by the reduction of , which is produced by methylation of thiophosphoryl chloride with methylmagnesium bromide.
See also
