镍催化芳基甲基醚硅基化反应的机理研究

Mechanistic Study on Nickel-Catalyzed Silylation of Aryl Methyl Ethers.

作者信息

Wang Bing, Zhang Qi, Jiang Julong, Yu Haizhu, Fu Yao

机构信息

Hefei National Laboratory for Physical Sciences at the Microscale, CAS Key Laboratory of Urban Pollutant Conversion, Anhui Province Key Laboratory of Biomass Clean Energy, iChEM, Department of Chemistry, University of Science and Technology of China, Hefei, Anhui, 230026, P.R. China.

Institute of Industry & Equipment Technology, Hefei University of Technology, Hefei, Anhui, 230009, P.R. China.

出版信息

Chemistry. 2017 Dec 6;23(68):17249-17256. doi: 10.1002/chem.201703266. Epub 2017 Oct 9.

DOI:10.1002/chem.201703266

PMID:28850757

Abstract

The mechanism of the nickel-catalyzed silylation of aryl methyl ethers has been systematically investigated by using DFT methods. This theoretical study supports a catalytic cycle that involves the formation of a nickel-silyl complex, C-O bond cleavage, C-Si reductive elimination, the addition of methoxide to boron, and finally regeneration of the catalyst. Notably, it was found that activation of the C-O bond proceeded through an oxidative addition pathway with a three-centered transition state. The silyl anion generated in situ works as a ligand to the nickel center and promotes this process. Meanwhile, the role of the base added (KOtBu) is also elucidated. The potassium cation helps to stabilize the oxidative addition transition state through noncovalent interactions, while the resting state is destabilized due to steric repulsion introduced by the tert-butoxide anion. This is further confirmed by a comparison made computationally between the reaction with KOtBu and that with KOMe or NaOtBu as the base.

摘要

通过使用密度泛函理论（DFT）方法，对镍催化芳基甲基醚的硅烷化反应机理进行了系统研究。该理论研究支持了一个催化循环，该循环涉及镍-硅烷基络合物的形成、C-O键断裂、C-Si还原消除、甲醇盐向硼的加成以及最终催化剂的再生。值得注意的是，发现C-O键的活化通过具有三中心过渡态的氧化加成途径进行。原位生成的硅烷基阴离子作为镍中心的配体并促进这一过程。同时，也阐明了所添加碱（叔丁醇钾）的作用。钾阳离子通过非共价相互作用有助于稳定氧化加成过渡态，而由于叔丁醇根阴离子引入的空间排斥作用，静止态则不稳定。通过以叔丁醇钾、甲氧基钾或叔丁醇钠作为碱进行计算反应之间的比较，进一步证实了这一点。

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镍催化芳基甲基醚硅基化反应的机理研究

Mechanistic Study on Nickel-Catalyzed Silylation of Aryl Methyl Ethers.

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