用于胺硼烷脱氢偶联的高活性双齿镁催化剂：动力学和机理研究

A Highly Active Bidentate Magnesium Catalyst for Amine-Borane Dehydrocoupling: Kinetic and Mechanistic Studies.

作者信息

Ried Alexander C A, Taylor Laurence J, Geer Ana M, Williams Huw E L, Lewis William, Blake Alexander J, Kays Deborah L

机构信息

School of Chemistry, University of Nottingham, University Park, Nottingham, NG7 2RD, UK.

Current address: Department of Chemistry, University of Virginia, Charlottesville, Virginia, 22904, USA.

出版信息

Chemistry. 2019 May 10;25(27):6840-6846. doi: 10.1002/chem.201901197. Epub 2019 Apr 25.

DOI:10.1002/chem.201901197

PMID:30875128

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6563444/

Abstract

A magnesium complex (1) featuring a bidentate aminopyridinato ligand is a remarkably selective catalyst for the dehydrocoupling of amine-boranes. This reaction proceeds to completion with low catalyst loadings (1 mol %) under mild conditions (60 °C), exceeding previously reported s-block systems in terms of selectivity, rate, and turnover number (TON). Mechanistic studies by in situ NMR analysis reveals the reaction to be first order in both catalyst and substrate. A reaction mechanism is proposed to account for these findings, with the high TON of the catalyst attributed to the bidentate nature of the ligand, which allows for reversible deprotonation of the substrate and regeneration of 1 as a stable resting state.

摘要

一种具有双齿氨基吡啶配体的镁配合物（1）是胺硼烷脱氢偶联反应极具选择性的催化剂。该反应在温和条件（60°C）下以低催化剂负载量（1 mol%）即可完全进行，在选择性、速率和周转数（TON）方面超过了先前报道的碱金属体系。通过原位核磁共振分析进行的机理研究表明，该反应对催化剂和底物均为一级反应。提出了一种反应机理来解释这些发现，催化剂的高TON归因于配体的双齿性质，这使得底物能够进行可逆去质子化，并使1再生为稳定的静止状态。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c9fb/7162075/63398ca55b7d/CHEM-25-6840-g004.jpg

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用于胺硼烷脱氢偶联的高活性双齿镁催化剂：动力学和机理研究

A Highly Active Bidentate Magnesium Catalyst for Amine-Borane Dehydrocoupling: Kinetic and Mechanistic Studies.

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