Sodium phosphide

Sodium phosphide

Names
Other names sodium phosphide, common trisodiophosphine
Identifiers
CAS Number	12058-85-4 N
ChemSpider	55463 Y
EC Number	235-031-0
Jmol 3D model	Interactive image
PubChem	61547
InChI InChI=1S/3Na.P/q3*+1;-3 Y Key: FHHBFSHDCCEUKM-UHFFFAOYSA-N Y InChI=1/3Na.P/q3*+1;-3 Key: FHHBFSHDCCEUKM-UHFFFAOYAE
SMILES [Na+].[Na+].[Na+].[PH6-3]
Properties
Chemical formula	Na3P
Molar mass	99.943 g/mol
Appearance	red crystals
Density	1.74 g/cm3
Melting point	650 °C (1,202 °F; 923 K)
Solubility in water	hydrolysis
Solubility	insoluble in liquid CO2
Structure
Crystal structure	hexagonal a = 4.9512 Å c = 8.7874 Å
Coordination geometry	around P 5 near neighbours, trigonal bipyramid [1]
Related compounds
Other anions	sodium chloride sodium nitride
Other cations	aluminium phosphide lithium phosphide potassium phosphide
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
N verify (what is YN ?)
Infobox references

Sodium phosphide, Na₃P, is a black, ionic salt containing the alkali metal sodium and the phosphide anion.^[2] Na₃P is a source of the highly reactive phosphide anion. It should not be confused with sodium phosphate, Na₃PO₄.

In addition to Na₃P, five other binary compositions of sodium and phosphorus are known: NaP, Na₃P₇, Na₃P₁₁, NaP₇, and NaP₁₅.^[3]

Properties

Like K₃P, solid Na₃P features pentacoordinate P centers.^[1] In the gas phase, molecular Na₃P and Li₃P are both trigonal pyramidal, with a lone pair of electrons on the central phosphorus atom.

Preparation

The first preparation of Na₃P was first reported in the mid-19th century. French researcher, Alexandre Baudrimont prepared sodium phosphide by reacting molten sodium with phosphorus pentachloride.^[4]

8 Na_(l) + PCl₅ → 5NaCl + Na₃P

Many different routes to Na₃P have been described. Due to its flammability and toxicity, Na₃P (and related salts) are generally prepared in situ. White phosphorus is reduced by sodium-potassium alloy to give the phosphide salt.^[5]

The conversion of white phosphorus to the phosphide has been well studied. Phosphorus reacts with sodium in an autoclave at 150 °C for 5 hours to produce Na₃P.^[6]

P₄ + 12 Na → 4 Na₃P

Alternatively the reaction can be conducted at normal pressures but using a temperatures gradient to generate nonvolatile Na_xP phases (x < 3) that then react further with sodium.^[7] In some cases, an electron-transfer agent, such as naphthalene, is used. In such applications, the naphthalene forms the soluble radical anions and more rapidly reduces the phosphorus.^[8]

Uses

Sodium phosphide is a source of the highly reactive 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 PM₃:^[5]

Na₃P + 3 M+⁵ → M₃P (M = H, Me₃Si)

The trimethylsilyl derivative is volatile (b.p. 30-35 C @ 0.001 mm Hg) and soluble. It serves as a soluble equivalent to "P³⁻".

Indium phosphide, a semiconductor arises by treating in-situ generated "sodium phosphide" with indium(III) chloride in hot N,N’-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:^[9]

3Na + P → Na₃P

Na₃P + InCl₃ → InP + 3NaCl

Sodium phosphide is also employed commercially as a catalyst in conjunction with zinc phosphide and aluminium phosphide for polymer production. When Na₃P is removed from the ternary catalyst polymerization of propylene and 4-methyl-1-pentene is not effective.^{[10][citation needed]}

polymerization of propene

Precautions

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 Na₃P on passenger aircraft, cargo only aircraft, and trains due to the potential fire and toxic hazards.^[11]

References

External links

• Environmental Chemistry Chemical Database- safety information for sodium phosphide from the U.S. Code of Federal Regulations