Issue 15, 2009

Catalysis by cationic oxorhenium(v): hydrolysis and alcoholysis of organic silanes

Abstract

The cationic [2-(2′-hydroxyphenyl)-2-oxazolinato(−2)]oxorhenium(V) complex 1 promotes oxidative dehydrogenation of organosilanes with water and alcohols in a catalytic manner to give excellent yields of silanols and silyl ethers, respectively. The reactions proceed conveniently under ambient and open-flask conditions with low catalyst loading (≤1 mol%). The scope of the reaction with water is quite broad and includes aliphatic, aromatic, tertiary, secondary and primary silanes. The rate of reaction depends on the catalyst and silane concentrations and kinetic isotope effect measurements demonstrate involvement of the Si–H bond in the activated complex. The most influential factor on the silane affecting reactivity is steric hindrance and a quantitative correlation with the Taft steric parameter (E) is presented. A combination of kinetic data and isotope labelling results are used to discuss plausible mechanisms for the oxidative dehydrogenation reaction pathway.

Graphical abstract: Catalysis by cationic oxorhenium(v): hydrolysis and alcoholysis of organic silanes

Supplementary files

Article information

Article type
Paper
Submitted
18 Dec 2008
Accepted
03 Feb 2009
First published
25 Feb 2009

Dalton Trans., 2009, 2850-2855

Catalysis by cationic oxorhenium(V): hydrolysis and alcoholysis of organic silanes

R. A. Corbin, E. A. Ison and M. M. Abu-Omar, Dalton Trans., 2009, 2850 DOI: 10.1039/B822783G

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