Phosphorus pentafluoride
| Structure of the phosphorus pentafluoride molecule | |
| Space-filling model of the phosphorus pentafluoride molecule | |
| Names | |
|---|---|
| IUPAC name
Phosphorus pentafluoride
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| Other names
Phosphorus(V) fluoride
Pentafluoridophosphorus Pentafluorophosphorane |
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| Identifiers | |
7647-19-0  |
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| ChemSpider | 22715  |
| EC Number | 231-602-3 |
| Jmol 3D model | Interactive image |
| PubChem | 24295 |
| RTECS number | TH4070000 |
| UN number | 2198 |
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| Properties | |
| PF5 | |
| Molar mass | 125.966 g/mol |
| Appearance | colourless gas |
| Odor | unpleasant |
| Density | 5.527 g/cm3 |
| Melting point | −93.78 °C (−136.80 °F; 179.37 K) |
| Boiling point | −84.6 °C (−120.3 °F; 188.6 K) |
| hydrolysis | |
| Structure | |
| trigonal bipyramidal | |
| 0 D | |
| Vapor pressure | {{{value}}} |
| Related compounds | |
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Other anions
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Phosphorus pentachloride Phosphorus pentabromide Phosphorus pentaiodide |
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Other cations
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Arsenic pentafluoride Antimony pentafluoride Bismuth pentafluoride |
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Related compounds
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Phosphorus trifluoride |
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Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
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 verify (what is ?) |
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| Infobox references | |
Phosphorus pentafluoride, PF5, is a phosphorus halide. It is a colourless gas at room temperature and pressure.[1]
Preparation
Phosphorus pentafluoride was first prepared in 1876 by the fluorination of phosphorus pentachloride using arsenic trifluoride.
Structure
Single-crystal X-ray studies indicate that the PF5 molecule has two distinct types of P−F bonds (axial and equatorial): the length of an axial P−F bond is 158.0 pm and the length of an equatorial P−F bond is 152.2 pm. Gas-phase electron diffraction analysis gives similar values: the axial P−F bonds are 158 pm long and the equatorial P−F bonds are 153 pm long.
Fluorine-19 NMR spectroscopy, even at temperatures as low as −100 °C, fails to distinguish the axial from the equatorial fluorine environments. The apparent equivalency arises from the low barrier for pseudorotation via the Berry mechanism, by which the axial and equatorial fluorine atoms rapidly exchange positions. The apparent equivalency of the F centers in PF5 was first noted by Gutowsky.[2] The explanation was first described by R. Stephen Berry, after whom the Berry mechanism is named. Berry pseudorotation influences the 19F NMR spectrum of PF5 since NMR spectroscopy operates on a millisecond timescale. Electron diffraction and X-ray crystallography do not detect this effect as the solid state structures are, relative to a molecule in solution, static and can not undergo the necessary changes in atomic position.
References
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