Nickel(ii)-catalyzed reductive silylation of alkenyl methyl ethers for the synthesis of alkyl silanes

Xiaodong Qiu; Li Zhou; Haoran Wang; Lingyi Lu; Yong Ling; Yanan Zhang

doi:10.1039/d1ra07238b

Nickel(ii)-catalyzed reductive silylation of alkenyl methyl ethers for the synthesis of alkyl silanes

RSC Adv. 2021 Nov 18;11(59):37083-37088. doi: 10.1039/d1ra07238b. eCollection 2021 Nov 17.

Authors

Xiaodong Qiu¹, Li Zhou¹, Haoran Wang¹, Lingyi Lu¹, Yong Ling¹, Yanan Zhang¹

Affiliation

¹ School of Pharmacy, Nantong University 19 Qixiu Road Nantong 226001 China qiuxiaodong@ntu.edu.cn yznj00@outlook.com.

Abstract

A new one pot protocol has been developed for the reductive silylation of alkenyl methyl ethers using Et₃Si-BPin and HSiEt₃ with nickel(ii) catalyst. Styrene type methyl ethers, multi-substituted vinyl methyl ethers, heterocycles and unconjugated vinyl ethers are all tolerated to form alkyl silanes. Mechanistic study reveals that it is a cascade of a C-O bond silylation and vinyl double bond hydrogenation process. Internal nucleophilic substitution or oxidative addition pathways were both acceptable for C-O bond cleavage. The acquired intermediate alkenyl silanes then proceeded through an unconventional reduction process thus providing alkyl silanes.