钼钳形配合物催化的酰胺高选择性氢化反应：范围与机理

Highly selective hydrogenation of amides catalysed by a molybdenum pincer complex: scope and mechanism.

作者信息

Leischner Thomas, Artús Suarez Lluis, Spannenberg Anke, Junge Kathrin, Nova Ainara, Beller Matthias

机构信息

Leibniz Institut für Katalyse e. V. , Albert-Einstein-Straße 29a , Rostock , 18059 , Germany . Email:

Hylleraas Centre for Quantum Molecular Sciences , Department of Chemistry , University of Oslo , P.O. Box 1033, Blindern , N-0315 , Oslo , Norway . Email:

出版信息

Chem Sci. 2019 Oct 8;10(45):10566-10576. doi: 10.1039/c9sc03453f. eCollection 2019 Dec 7.

DOI:10.1039/c9sc03453f

PMID:32110342

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7020655/

Abstract

A series of molybdenum pincer complexes has been shown for the first time to be active in the catalytic hydrogenation of amides. Among the tested catalysts, proved to be particularly well suited for the selective C-N hydrogenolysis of -methylated formanilides. Notably, high chemoselectivity was observed in the presence of certain reducible groups including even other amides. The general catalytic performance as well as selectivity issues could be rationalized taking an anionic Mo(0) as the active species. The interplay between the amide C[double bond, length as m-dash]O reduction and the catalyst poisoning by primary amides accounts for the selective hydrogenation of -methylated formanilides. The catalyst resting state was found to be a Mo-alkoxo complex formed by reaction with the alcohol product. This species plays two opposed roles - it facilitates the protolytic cleavage of the C-N bond but it encumbers the activation of hydrogen.

摘要

一系列钼钳形配合物首次被证明在酰胺的催化氢化反应中具有活性。在测试的催化剂中，已证明特别适合于N-甲基甲酰苯胺的选择性C-N氢解反应。值得注意的是，在存在某些可还原基团（甚至包括其他酰胺）的情况下观察到了高化学选择性。以阴离子Mo(0)作为活性物种，可以合理解释一般的催化性能以及选择性问题。酰胺C=O还原与伯酰胺对催化剂的毒化之间的相互作用解释了N-甲基甲酰苯胺的选择性氢化反应。发现催化剂的静止状态是与醇产物反应形成的Mo-烷氧基配合物。该物种起着两个相反的作用——它促进C-N键的质子解裂，但阻碍氢的活化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3472/7020655/c8985b6aa5fb/c9sc03453f-s1.jpg

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钼钳形配合物催化的酰胺高选择性氢化反应：范围与机理

Highly selective hydrogenation of amides catalysed by a molybdenum pincer complex: scope and mechanism.

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