膦催化的钛氢还原剂还原烷基硅基过氧化物：方法的发展和机理研究。

Phosphine-catalyzed reductions of alkyl silyl peroxides by titanium hydride reducing agents: development of the method and mechanistic investigations.

机构信息

Department of Chemistry, University of California, Irvine, California 92697-2025, USA.

出版信息

J Org Chem. 2010 Aug 6;75(15):5083-91. doi: 10.1021/jo1008367.

PMID:20604518

Abstract

A method that allows for the reduction of protected hydroperoxides by employing catalytic amounts of phosphine is presented. The combination of a titanium(IV) alkoxide and a siloxane allowed for the chemoselective reduction of phosphine oxides in the presence of alkyl silyl peroxides. Subsequent reduction of the peroxide moiety by phosphine provided the corresponding silylated alcohols in useful yields. Mechanistic experiments, including crossover experiments, support a mechanism in which the peroxide group was reduced and the silyl group was transferred in a concerted step. Labeling studies with (17)O-labeled peroxides demonstrate that the oxygen atom adjacent to the silicon atom is removed from the silyl peroxide.

摘要

本文介绍了一种使用催化量膦还原保护的氢过氧化物的方法。钛（IV）醇盐和硅氧烷的组合允许在烷基硅基过氧化物存在下选择性还原膦氧化物。随后通过膦还原过氧化物部分提供了相应的硅烷化醇，产率较高。包括交叉实验在内的机理实验支持了一种机理，其中过氧基被还原，而硅基在协同步骤中被转移。用（17）O 标记的过氧化物进行的标记研究表明，与硅原子相邻的氧原子从硅基过氧化物中被除去。

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膦催化的钛氢还原剂还原烷基硅基过氧化物：方法的发展和机理研究。

Phosphine-catalyzed reductions of alkyl silyl peroxides by titanium hydride reducing agents: development of the method and mechanistic investigations.

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