Триэтилсилан

Описание

Triethylsilane is a useful versatile reductant since it has a active hydride. It can be used for mediated the palladium-catalyzed dehalogenation reaction of alkyl or aryl halides, the reduction of primary, secondary, and tertiary chlorides, bromides, and iodides catalyzed by iridium, as well as efficient reduction of multiple bonds, azides, imines, and nitro groups, as well as benzyl group and allyl group deprotection. It is also specifically for the hydrosilation of olefins to give alkyl silanes. It is also the catalyst for synthesis of a spiro-oxindole blocker of Nav1.7 for the treatment of pain, redox initiated cationic polymerization and Beckmann rearrangement of cyclododecanone oxime as well as regioselective reductive coupling of enones and allenes.

Химические свойства

Clear liquid

Использование

Triethylsilane is a trialkylsilicon hydride used in the synthesis of alkylsilanes via hydrosilation of olefins. It acts as a reducing agent in the reduction of 2-chromanols, since it has an active hydride. It acts as a catalyst for redox initiated cationic polymerization, regioselective reductive coupling of enones and allenes, and Beckmann rearrangement of cyclododecanone oxime. It is associated with trifluoroacetic acid and involved in the selective reduction of alkenes.

Методы производства

A synthetic method of triethylsilane comprises the following steps: reacting sodium hydride with trimethyl borate to prepare trimethoxy sodium borohydride; adding triethylchlorosilane to trimethoxy sodium monohydroborate to react to obtain triethylsilane.
To a 500ml reaction flask, 20g (0.5mol) of 60% sodium hydride and 80g of anhydrous tetrahydrofuran were added. Stirring and cooling to 0-10 ℃ under the protection of nitrogen, the mixture was then maintained under nitrogen protection, stirred, and the liquid temperature at 0-10 ℃, and dropwise added 57.2g (0.55mol) of trimethyl borate. After the dropwise addition, the temperature was kept at 0-10 ℃ and stirred for 1 hour.Maintaining the nitrogen protection, stirring and liquid temperature of the reaction liquid at 0-10 ℃, and then dropwise adding 67.7g (0.45mol) of triethylchlorosilane. After the dropwise addition, continuously keep the temperature at 0-10 ℃ and stir for 1 hour. The reaction solution was then filtered at room temperature. Rectifying the filtrate at normal pressure and collecting fractions with the boiling range of 109-110 ℃ as triethylsilane to obtain 46.1g of triethylsilane, which yields 88.2%. 45-64 ℃: a mixed solution of trimethyl borate and tetrahydrofuran; 64-109 ℃:a mixture of tetrahydrofuran and a small triethylsilane.

Определение

ChEBI: Triethylsilane is an organosilicon compound. It has a role as a reducing agent.

прикладной

Triethylsilane is used as a reducing agent inmany organic synthetic reactions.
Used to reduce metal salts. Enhances deprotection of t-butoxycarbonyl-protected amines and tert-butylesters.
Used in the reductive amidation of oxazolidinones with amino acids to provide dipeptides.
Converts aldehydes to symmetrical and unsymmetrical ethers.
Used in the "in-situ" preparation of diborane and haloboranes.

Пожароопасность

Highly flammable; flash point －4°C (25°F) (Aldrich 1996).
It does not ignite spontaneously in air, but it can explode on heating. The ease of oxidation of this compound is relatively lower than mono- and dialkylsilanes. Reaction with oxidizing substances, however, can be violent. Reaction with boron trichloride could be explosive at room temperature. Even at 78°C ( 108°F), mixing these reagents caused pressure buildup and combustion (Matteson 1990).

Методы очистки

Reflux triethylsilane over molecular sieves, then distil it. It is passed through neutral alumina before use [Randolph & Wrighton J Am Chem Soc 108 3366 1986]. [Beilstein 4 IV 3895.]