Recent advances in decarboxylative C-C bond formation using direct or in situ generated alkenyl acids

Catalysis Reviews Pub Date : 2020-01-02 DOI:10.1080/01614940.2019.1700736

P. Kaur, Vinod Kumar, Rakesh Kumar

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引用次数: 12

Abstract

ABSTRACT In recent years, the reactions of abundantly available, inexpensive, and structurally diverse alkenyl acids (-C=C-COOH) with C-X (X = halogen) or C-H coupling partner have emerged as vital strategies for the streamlined synthesis of functionalized alkenes with extrusion of innocuous CO2. Various alkenyl acids such as cinnamic acids can act as stable surrogates for the polymerization prone styrenes/olefins, which otherwise need special attention for their handling and storage. Furthermore, cinnamic acids can be easily prepared through various methodologies including Knoevenagel-Doebner (KD) condensation, Heck coupling reaction, etc. Recently, various one-pot tandem methodologies involving the decarboxylative coupling of KD/Heck sequence with C-H or C-X substrate have come into fore. The present review article edifies about the recent advances, scope and limitations for C-C bond formation via (i) direct decarboxylative functionalization of C-X or C-H substrate with alkenyl acids, (ii) tandem one-pot multicomponent decarboxylative approaches (involving in situ generated alkenyl acids) e.g. coupling of KD/Heck sequences with C-X or C-H substrate. Graphical abstract

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使用直接或原位生成的烯基酸脱羧C-C键的最新进展

近年来，大量可用、廉价且结构多样的烯基酸(c =C-COOH)与C-X (X =卤素)或C-H偶联伙伴的反应已成为挤压无害CO2流线型合成功能化烯烃的重要策略。各种烯基酸如肉桂酸可以作为易于聚合的苯乙烯/烯烃的稳定替代品，否则需要特别注意它们的处理和储存。此外，肉桂酸可以通过Knoevenagel-Doebner (KD)缩合、Heck偶联反应等多种方法制备。最近，涉及KD/Heck序列与C-H或C-X底物脱羧偶联的各种单锅串联方法已经出现。本文综述了C-C键形成方法的最新进展、范围和局限性:(1)C-X或C-H底物与烯基酸直接脱羧功能化;(2)串联一锅多组分脱羧方法(涉及原位生成的烯基酸)，例如KD/Heck序列与C-X或C-H底物的偶联。图形抽象

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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Catalysis Reviews

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