Phosphorus pentachloride

The phosphorus chlorides Phosphorus trichloride (PCl₃) and phosphorus pentachloride (PCl₅) are reactive chemicals used as chlorinating reagents in a chemical laboratory. They are both hazardous and toxic and neither is found in nature. They both react upon contact with water to produce corrosive and toxic hydrogen chloride gas. At room temperature and pressure, phosphorus trichloride is a liquid and phosphorus pentachloride is a solid.

Both will chlorinate carboxylic acids to their corresponding acyl chloride derivatives and both will chlorinate alcohols by substituting the hydroxyl group with a chlorine atom to yield an alkyl chloride. The use of thionyl chloride could provide similar results in such cases, except that the byproducts sulfur dioxide and hydrogen chloride are both gases which normally separate from the reaction product mixture.

Phosphorus trichloride is produced on a large scale by the reaction of chlorine with excess phosphorus, and it is used for a variety of uses such as manufacture of herbicides.

PCl₅ is made by the reaction of more chlorine with PCl₃. PCl₅ is in equilibrium with PCl₃ and free chlorine. Depending on the polarity of the solvent the compounds are crystallized from, it is obtained either as neutral PCl₅ or ionic (PCl₄⁺)(PCl₆^-).

If an electric discharge is passed through a mixture of PCl₃ vapour and hydrogen gas, a rare chloride of phosphorus is formed, diphosphorus tetrachloride (P₂Cl₄).

Some reactions with reactants PCl₃ or PCl₅ can produce POCl₃, called phosphorus oxytrichloride, phosphorus oxychloride, or phosphoryl chloride.

For example, POCl₃ can be obtained by oxidation of PCl₃ by oxygen as follows:^[2]

POCl₃ is used in the manufacture of phosphate esters, especially triesters which are not easily accessible using phosphorus pentoxide (P₂O₅) or polyphosphoric acid. These have many applications, including flame retardants and plasticizers.

PCl₅ reacts with cold water to give POCl₃ as follows:^[3]

In hot water, PCl₅ is hydrolyzed all the way to ortho-phosphoric acid as follows:^[3]

Reacting the following phosphorus oxide with PCl₅ can produce POCl₃:^[2]

PCl₅ is a mild chlorination agent, used in parmaceuticals synthesis. It is also a precursor for lithium hexafluorophosphate (LiPF₆), a key ingredient in lithium ion battery electrolytes.

There are phosphorus oxytrihalides with fluorine, chlorine, bromine, and iodine. They can react with water to form the ortho-phosphoric acid with the corresponding hydrogen halide. They can react with alcohols to form phosphate esters plus the corresponding hydrogen halide. They can also react with Grignard reagents to form trialkyl phosphoryl compounds (R₃PO, also called phosphine oxides). They also complex with various metals. Some complex phosphorus oxohalides are also known for fluorine and chlorine.^[2]

• Thermphos

• Phosphorus halides

1. Appendix B, p. 897. William W. Porterfield, Inorganic Chemistry - A Unified Approach, 2nd Edition, (1993). Academic Press, Inc., San Diego.
2. F. A. Cotton, G. Wilkinson, C. A. Murillo, and M. Bochmann (April 1999). Advanced Inorganic Chemistry, 6th Edition. Wiley-VCH. ISBN 0-471-19957-5
3. Hydrogen Chloride