用于烯烃硅氢化和硼氢化反应的地球丰富型过渡金属催化剂：机遇与评估

Earth-Abundant Transition Metal Catalysts for Alkene Hydrosilylation and Hydroboration: Opportunities and Assessments.

作者信息

Obligacion Jennifer V, Chirik Paul J

机构信息

Department of Chemistry, Princeton University, Princeton, New Jersey 08544, United States.

出版信息

Nat Rev Chem. 2018 May;2(5):15-34. doi: 10.1038/s41570-018-0001-2. Epub 2018 Apr 27.

DOI:10.1038/s41570-018-0001-2

PMID:30740530

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6365001/

Abstract

The addition of a silicon-hydrogen or a boron-hydrogen bond across a carbon-carbon multiple bonds is a well-established method for the introduction of versatile silane and borane functional groups to base hydrocarbon feedstocks. Transition metal catalysis, historically with precious second- and third- row transition metals, has been used to broaden the scope of the hydrofunctionalization reaction, improve reaction rate and enhance selectivity. The anti-Markovnikov selectivity of platinum-catalyzed hydrosilylation of alkenes, for example, is an enabling synthetic technology in the multibillion-dollar silicones industry. Increased emphasis on sustainable catalytic methods and more economic processes has shifted focus to catalysis with more earth-abundant transition metals such as iron, cobalt and nickel. This review describes contemporary approaches and offers a contextual analysis of catalytic alkene hydrosilylation and hydroboration reactions using first-row transition metals. Emphasis is placed on defining advances in the field, what constitutes catalyst cost, safety, and important design features to enable precious metal-like reactivity, as well as new chemistry that is unique to first-row transition metals.

摘要

通过碳 - 碳多重键加成硅 - 氢或硼 - 氢键是一种成熟的方法，可将通用的硅烷和硼烷官能团引入基础烃类原料中。过渡金属催化，历史上使用珍贵的第二和第三周期过渡金属，已被用于拓宽氢官能化反应的范围、提高反应速率并增强选择性。例如，铂催化的烯烃硅氢加成反应的反马氏选择性是数十亿美元有机硅行业中的一项关键合成技术。对可持续催化方法和更经济工艺的日益重视已将重点转移到使用铁、钴和镍等地球上储量更丰富的过渡金属进行催化。本综述描述了当代方法，并对使用第一周期过渡金属的催化烯烃硅氢加成和硼氢化反应进行了背景分析。重点在于界定该领域的进展、构成催化剂成本和安全性的因素以及实现类似贵金属反应性的重要设计特征，以及第一周期过渡金属特有的新化学性质。

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