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| | TRIS(TRIMETHYLSILYL)PHOSPHINE Basic information |
| | TRIS(TRIMETHYLSILYL)PHOSPHINE Chemical Properties |
| Melting point | 24 °C | | Boiling point | 243-244 °C(lit.) | | density | 0.863 g/mL at 25 °C(lit.) | | refractive index | n20/D 1.502(lit.) | | Fp | -18°C | | storage temp. | 0-6°C | | solubility | pentane, hexanes, methylene chloride, benzene,
toluene, and acetonitrile. | | form | Liquid | | Specific Gravity | 0.72 | | color | Colorless to Almost colorless | | Water Solubility | Insoluble in water. | | Hydrolytic Sensitivity | 8: reacts rapidly with moisture, water, protic solvents | | Sensitive | Air & Moisture Sensitive | | CAS DataBase Reference | 15573-38-3(CAS DataBase Reference) |
| | TRIS(TRIMETHYLSILYL)PHOSPHINE Usage And Synthesis |
| Chemical Properties | Colorless to light yellow liqui | | Physical properties | mp 24 °C; bp 243–244 °C; d 0.863 g cm?3; n20
D
1.501–1.503. | | Uses | Tris(trimethylsilyl)phosphine is a more stable analog of phosphine, but retains high reactivity due to the presence of the weak polar Si–P bond. It is nucleophilic and readily reacts with a range of electrophiles. Reaction with alkylating agents provides substituted phosphines, with acid chlorides phosphaalkenes can be obtained, and phosphabenzenes can be synthesized upon reaction with pyrylium salts.
It can be used as user-friendly phosphorus source and alternative to phosphine
gas, precursor of (Me3Si)2PLi, covalent synthon for the
anion P3?). | | Uses | It is used as the intermediate in organic synthesis. | | Preparation | several preparative methods are known.
These include the following: reaction of alkali metal phosphides
(NaPH2, KPH2, Li3P, usually prepared by reaction
of metal and phosphine gas or via metal alkyl derivative) with
chlorotrimethylsilane or fluorotrimethylsilane in 1,2-dimethoxyethane
or diethyl ether; reaction of sodium–potassium
alloy with white or red phosphorus in refluxing 1,2-
dimethoxyethane for 24 h followed by addition of
chlorotrimethylsilane and heating at reflux for 72 h (good
stirring is necessary for high yield of product), evaporation of
the solvent, and vacuum distillation (75% yield); reaction
of piperidinodichlorophosphine with lithium powder and
chlorotrimethylsilane in refluxing tetrahydrofuran (71%
yield); reaction of phosphine with excess of trimethylsilyl
triflate in the presence of a tertiary amine in an inert solvent
(Et2O) at low temperature (90% yield); reaction of phosphorus
trichloride, magnesium, and chlorotrimethylsilane (62%
yield). The last method is considered to be the most cost
effective and also the safest approach. | | Synthesis |
Tris(trimethylsilyl)phosphine is prepared by treating trimethylsilyl chloride, white phosphorus, and sodium-potassium alloy:
1/4 P4 + 3 Me3SiCl+ 3 K → P(SiMe3)3 + 3 KCl
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| | TRIS(TRIMETHYLSILYL)PHOSPHINE Preparation Products And Raw materials |
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