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通过碳-氧键活化实现的钯催化交叉偶联反应。

Palladium-Catalyzed Cross-Couplings by C-O Bond Activation.

作者信息

Zhou Tongliang, Szostak Michal

机构信息

Department of Chemistry, Rutgers University, 73 Warren Street, Newark, NJ 07102, United States.

出版信息

Catal Sci Technol. 2020 Sep 7;10(17):5702-5739. doi: 10.1039/d0cy01159b. Epub 2020 Jul 30.

DOI:10.1039/d0cy01159b
PMID:33796263
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8009314/
Abstract

Although palladium-catalyzed cross-coupling of aryl halides and reactive pseudohalides has revolutionized the way organic molecules are constructed today across various fields of chemistry, comparatively less progress has been made in the palladium-catalyzed cross-coupling of less reactive C-O electrophiles. This is despite the fact that the use of phenols and phenol derivatives as bench-stable cross-coupling partners has been well-recognized to bring about major advantages over aryl halides, such as (1) natural abundance of phenols, (2) avoidance of toxic halides, (3) orthogonal cross-coupling conditions, (4) prefunctionalization of phenolic substrates by electrophilic substitution or C-H functionalization, (5) ready availability of phenols from a different pool of precursors than aryl halides. In this review, we present an overview of recent advances made in the field of palladium-catalyzed cross-coupling of C-O electrophiles with a focus on (1) catalytic systems, (2) reaction type, and (3) class of C-O coupling partners. Although the field has been historically dominated by nickel catalysis, it is now evident that the use of more versatile, more functional group tolerant and highly active palladium catalysts supported by appropriately designed ancillary ligands enables the cross-coupling with improved substrate scope and generality, and likely represents a practical solution to the broadly applicable cross-coupling of various C-O bonds across diverse chemical disciplines. The review covers the period through June 2020.

摘要

尽管钯催化的芳基卤化物与活性拟卤化物的交叉偶联彻底改变了当今化学各个领域构建有机分子的方式,但在钯催化的低活性碳-氧亲电试剂的交叉偶联方面取得的进展相对较少。尽管使用酚类和酚类衍生物作为易于储存的交叉偶联伙伴相对于芳基卤化物具有诸多显著优势,例如:(1)酚类在自然界中储量丰富;(2)避免使用有毒卤化物;(3)正交交叉偶联条件;(4)通过亲电取代或碳-氢键官能化对酚类底物进行预官能化;(5)可从与芳基卤化物不同的前体库中轻松获得酚类。在本综述中,我们概述了钯催化的碳-氧亲电试剂交叉偶联领域的最新进展,重点关注:(1)催化体系;(2)反应类型;(3)碳-氧偶联伙伴的类别。尽管该领域在历史上一直由镍催化主导,但现在很明显,使用由适当设计的辅助配体支持的更通用、更具官能团耐受性和高活性的钯催化剂能够实现交叉偶联,扩大底物范围并提高通用性,这可能为跨不同化学学科广泛适用的各种碳-氧键交叉偶联提供一种切实可行的解决方案。本综述涵盖截至2020年6月的相关内容。

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