Sodium phosphide is the inorganic compound with the formula Na<sub>3</sub>P. It is a black solid. It is often described as Na<sup>+</sup> salt of the P<sup>3âÂÂ</sup> anion. Na<sub>3</sub>P is a source of the highly reactive phosphide anion. It should not be confused with sodium phosphate, Na<sub>3</sub>PO<sub>4</sub>.
In addition to Na<sub>3</sub>P, five other binary compositions of sodium and phosphorus are known: NaP, Na<sub>3</sub>P<sub>7</sub>, Na<sub>3</sub>P<sub>11</sub>, NaP<sub>7</sub>, and NaP<sub>15</sub>.
The compound crystallizes in a hexagonal motif, often called the sodium arsenide structure. Like K<sub>3</sub>P, solid Na<sub>3</sub>P features pentacoordinate P centers.
The first preparation of Na<sub>3</sub>P was first reported in the mid-19th century. French researcher, Alexandre Baudrimont prepared sodium phosphide by treating molten sodium with phosphorus pentachloride.
Many different routes to Na<sub>3</sub>P have been described. Due to its flammability and toxicity, Na<sub>3</sub>P (and related salts) is often prepared and used in situ. White phosphorus is reduced by sodium-potassium alloy:
Phosphorus reacts with sodium in an autoclave at 150 ðC for 5 hours to produce Na<sub>3</sub>P.
Alternatively the reaction can be conducted at normal pressures but using a temperatures gradient to generate nonvolatile Na<sub>x</sub>P phases (x < 3) that then react further with sodium. In some cases, an electron-transfer agent, such as naphthalene, is used. In such applications, the naphthalene forms the soluble sodium naphthalenide, which reduces the phosphorus.
Sodium phosphide is a source of the highly reactive and highly basic phosphide anion. The material is insoluble in all solvents but reacts as a slurry with acids and related electrophiles to give derivatives of the type PM<sub>3</sub>:
The trimethylsilyl derivative is volatile (b.p. 30-35 C @ 0.001 mm Hg) and soluble. It serves as a soluble equivalent to "P<sup>3âÂÂ</sup>".
Indium phosphide, a semiconductor arises by treating in-situ generated "sodium phosphide" with indium(III) chloride in hot N,NâÂÂ-dimethylformamide as solvent. In this process, the phosphide reagent is generated from sodium metal and white phosphorus, whereupon it immediately reacts with the indium salt:
Sodium phosphide is highly dangerous releasing toxic phosphine upon hydrolysis, a process that is so exothermic that fires result. The USDOT has forbidden the transportation of Na<sub>3</sub>P on aircraft and trains due to the potential fire and toxic hazards.