使用受阻路易斯对将 CO₂还原为甲醇：膦-硼烷介导 CO₂加氢硼化反应的机理。

Reducing CO₂ to methanol using frustrated Lewis pairs: on the mechanism of phosphine-borane-mediated hydroboration of CO₂.

机构信息

Département de Chimie, Centre de de Catalyse et Chimie Verte (C3V), Université Laval , 1045 Avenue de la Médecine, Québec, QC, Canada G1V 0A6.

出版信息

J Am Chem Soc. 2014 Jul 30;136(30):10708-17. doi: 10.1021/ja5047846. Epub 2014 Jul 15.

DOI:10.1021/ja5047846

PMID:24948159

Abstract

The full mechanism of the hydroboration of CO2 by the highly active ambiphilic organocatalyst 1-Bcat-2-PPh2-C6H4 (Bcat = catecholboryl) was determined using computational and experimental methods. The intramolecular Lewis pair was shown to be involved in every step of the stepwise reduction. In contrast to traditional frustrated Lewis pair systems, the lack of steric hindrance around the Lewis basic fragment allows activation of the reducing agent while moderate Lewis acidity/basicity at the active centers promotes catalysis by releasing the reduction products. Simultaneous activation of both the reducing agent and carbon dioxide is the key to efficient catalysis in every reduction step.

摘要

使用计算和实验方法确定了高活性两性有机催化剂 1-Bcat-2-PPh2-C6H4（Bcat = 儿茶酚硼酸基）对 CO2 的硼氢化反应的完整机理。结果表明，分子内路易斯对参与了逐步还原的每一步。与传统的受阻路易斯对体系不同，路易斯碱片段周围没有空间位阻，这允许活化还原剂，而活性中心适度的路易斯酸碱性促进了催化作用，同时释放还原产物。在每一步还原中，同时活化还原剂和二氧化碳是高效催化的关键。

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使用受阻路易斯对将 CO₂还原为甲醇：膦-硼烷介导 CO₂加氢硼化反应的机理。

Reducing CO₂ to methanol using frustrated Lewis pairs: on the mechanism of phosphine-borane-mediated hydroboration of CO₂.

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