Dirhodium tetracarboxylates as catalysts for selective intermolecular C–H functionalization

IF 38.1 1区化学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Nature reviews. Chemistry Pub Date : 2019-05-07 DOI:10.1038/s41570-019-0099-x

Huw M. L. Davies, Kuangbiao Liao

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引用次数: 152

Abstract

C–H functionalization has become widely recognized as an exciting new strategy for the synthesis of complex molecular targets. Instead of relying on functional groups as the controlling elements of how molecules are assembled, this strategy offers an altogether different logic for organic synthesis. For this type of strategy to be successful, reagents and catalysts need to be developed that generate intermediates that are sufficiently reactive to functionalize C–H bonds but are still capable of distinguishing between the many different C–H bonds and other functional groups present in a molecule. The most well-established approaches have tended to use substrates that inherently have a favoured site for C–H functionalization or rely on intramolecular reactions to control where the reaction will occur. A challenging but potentially more versatile approach would be to use catalysts to control the site selectivity without requiring the influence of any directing group. One example that is capable of achieving such transformations is the C–H insertion chemistry of transient metal carbenes. Dirhodium tetracarboxylates have been shown to be especially effective catalysts for these reactions. This Review highlights the development of these dirhodium catalysts and illustrates their effectiveness to control both site-selective and stereoselective C–H functionalization of a wide variety of substrates. The development of C–H functionalization methodology offers a new logic for chemical synthesis. Dirhodium tetracarboxylates have emerged as some of the most effective catalysts for these transformations, enabling site-selective and stereoselective insertion of transient metal carbenes into C–H bonds.

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作为选择性分子间 C-H 功能化催化剂的四羧酸二氢铑

C-H 功能化已被广泛认为是合成复杂分子目标的一种令人兴奋的新策略。这种策略并不依赖于官能团作为分子组装的控制元素，而是为有机合成提供了一种完全不同的逻辑。要使这种策略取得成功，需要开发出能够生成具有足够活性的中间体的试剂和催化剂，这些中间体既能使 C-H 键官能化，又能区分分子中存在的多种不同 C-H 键和其他官能团。最成熟的方法倾向于使用本身具有 C-H 功能化有利位点的底物，或者依赖分子内反应来控制反应发生的位置。一种具有挑战性但可能更通用的方法是使用催化剂来控制位点选择性，而不需要任何定向基团的影响。瞬态金属碳化物的 C-H 插入化学反应就是能够实现这种转化的一个例子。四羧酸二铑已被证明是这些反应特别有效的催化剂。本综述重点介绍了这些二铑催化剂的发展情况，并说明了它们在控制多种基质的位点选择性和立体选择性 C-H 功能化方面的有效性。C-H 功能化方法学的发展为化学合成提供了一种新的逻辑。四羧化二氢铑已成为这些转化过程中最有效的催化剂，可实现位点选择性和立体选择性地将瞬态金属碳插入 C-H 键。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Nature reviews. Chemistry Chemical Engineering-General Chemical Engineering

CiteScore

52.80

自引率

0.80%

发文量

期刊介绍： Nature Reviews Chemistry is an online-only journal that publishes Reviews, Perspectives, and Comments on various disciplines within chemistry. The Reviews aim to offer balanced and objective analyses of selected topics, providing clear descriptions of relevant scientific literature. The content is designed to be accessible to recent graduates in any chemistry-related discipline while also offering insights for principal investigators and industry-based research scientists. Additionally, Reviews should provide the authors' perspectives on future directions and opinions regarding the major challenges faced by researchers in the field.