金属催化CH活化/功能化:基本原理

IF 5.062
Fares Roudesly, Julie Oble, Giovanni Poli
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引用次数: 166

摘要

分子中分离的CH键具有非常低的反应活性,这是由于与CH键裂解相关的大的动力学势垒和该键的极性性质。因此,这种非官能团的选择性反应性几十年来一直受到积极的研究,至今仍被视为化学领域的圣杯。金属催化的CH活化/功能化化学允许从碳氢化合物(或碳氢化合物片段)开始的CC以及CO和CN键的阶梯经济和原始构建,而无需事先的非催化氧化步骤。此外,它在多步合成领域以及具有社会意义的转化(如甲烷转化为甲醇)中可能是至关重要的。本教程综述面向希望熟悉这个迷人主题的学生和研究人员。在简要的历史介绍之后,揭示了金属催化CH活化的主要机理基础。然后,介绍了一些开创性的进展和概念上的突破。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Metal-catalyzed CH activation/functionalization: The fundamentals

Metal-catalyzed CH activation/functionalization: The fundamentals

An isolated CH bond in a molecule has a very low reactivity owing to the large kinetic barrier associated to the CH bond cleavage and the apolar nature of this bond. For this reason, the selective reactivity of such a non-functional group is under active study since several decades and is still regarded as the Holy Grail in chemistry. Metal-catalyzed CH activation/functionalization chemistry allows the step-economical and original construction of CC as well as CO and CN bonds starting from hydrocarbons (or hydrocarbon fragments) without the need of prior non catalytic oxidation steps. Furthermore, it can be of utmost importance in the domain of multistep syntheses, and also in transformations of societal significance such as the conversion of methane into methanol. This tutorial review addresses to students and researchers who would like to become acquainted with this fascinating topic. After a brief historical introduction, the main mechanistic fundaments of metal-catalyzed CH activation are exposed. Then, a selection of seminal advances and conceptual breakthroughs are presented.

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来源期刊
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审稿时长
2.8 months
期刊介绍: The Journal of Molecular Catalysis A: Chemical publishes original, rigorous, and scholarly full papers that examine the molecular and atomic aspects of catalytic activation and reaction mechanisms in homogeneous catalysis, heterogeneous catalysis (including supported organometallic catalysis), and computational catalysis.
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