相似亲电试剂之间的交叉亲电偶联 (XEC)

IF 5.5 1区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY Chinese Journal of Chemistry Pub Date : 2024-11-01 DOI:10.1002/cjoc.202400684
Jie Lei, Shan Yu, Zhi-Gang Xu
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引用次数: 0

摘要

综合摘要 跨亲电偶联反应(XEC)是交叉偶联反应的一个重要子集,其核心是通过两个亲电体的结合形成牢固的 C-C 键。通常,此类反应主要由过渡金属催化。然而,随着光化学和电化学技术的不断进步,XEC 反应也取得了长足的进步,并扩大了其范围,可以利用更多可容忍的官能团,从而展现出广阔的应用前景。本综述旨在系统总结当前流行的亲电体类型,并深入探讨其在涉及具有相同官能团的亲电体的 XEC 反应中的具体应用实例。具体而言,同类卤化物之间的 XEC 反应已受到广泛关注,而羧酸和醇类反应仍处于早期研究阶段。此外,某些其他常见的亲电体在这方面仍未得到研究。此外,本综述还强调了光化学和电化学在 XEC 反应领域的卓越贡献,旨在为研究人员提供有价值的见解和灵感。此外,本综述还希望激发人们对 XEC 反应的进一步兴趣,从而推动这一令人兴奋的研究领域不断发展和进步。 主要科学家 自 20 世纪 60 年代以来,主要在过渡金属催化剂应用的推动下,XEC 反应取得了长足的进步。在这一领域,许多杰出的科学家贡献了他们的智慧和努力。尤其值得一提的是,在系统研究相同官能团的 XEC 反应过程中,2016 年,MacMillan 实现了芳基溴和烷基溴之间的光催化 XEC 反应;2020 年,Weix 成功实现了镍催化的芳基氯和烷基氯之间的 XEC 反应。与此同时,Mei、Wolf、Sevov、Lin、Shen、Browne、Zhang 和 Qiu 等研究人员的贡献将 XEC 反应的范围扩大到各种卤化物。到 2022 年,MacMillan 和 Baran 在羧酸间的 XEC 方面取得了重要的里程碑式的进展,进一步拓宽了这一领域的研究范围。此外,醇类的 XEC 也取得了进展,包括 Weix、Lian、Tu 和 Stahl 在内的研究人员开展了开创性工作,并成功实施了保护基团的 XEC。可以预见,目前的研究工作将主要集中在扩展各种亲电体方面。
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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Cross-Electrophile Couplings (XECs) between Similar Electrophile Reagents

Comprehensive Summary

Cross-electrophile couplings (XEC), a crucial subset of cross-coupling reactions, center on the formation of robust C—C bonds through the union of two electrophiles. Usually, such reactions have primarily been catalyzed by transition metals. However, with the steady advancements in photochemical and electrochemical technologies, XEC reactions have significantly progressed and broadened their scope, allowing for the utilization of a wider array of tolerable functional groups, thus revealing vast application prospects. This review aims to systematically summarize the current prevalent types of electrophiles and delve into their specific application examples within XEC reactions involving electrophiles with identical functional groups. Specifically, XECs between the same type of halides have received considerable attention, whereas carboxylic acids and alcohols are still in the early stages of investigation. Furthermore, certain other common electrophiles remain unexplored in this context. Moreover, this review underscores the remarkable contributions of photochemistry and electrochemistry in the field of XEC reactions, aiming to provide valuable insights and inspiration for researchers. Also, this review hopes to spark further interest in XEC reactions, thereby fueling the continuous development and advancement of this exciting area of research.

Key Scientists

Since the 1960s, advancements in the XEC reaction have been substantial, driven primarily by the application of transition metal catalysts. In this area, many distinguished scientists have contributed their wisdom and efforts. Particularly noteworthy is that, during the systematic study of XEC reactions with the identical functional groups, in 2016, MacMillan achieved a photocatalytic XEC reaction between aryl bromides and alkyl bromides; in 2020, Weix successfully realized a nickel-catalyzed XEC reaction between aryl chlorides and alkyl chlorides. Concurrently, contributions from researchers such as Mei, Wolf, Sevov, Lin, Shen, Browne, Zhang, and Qiu have expanded the scope of XEC reactions to various halides. By 2022, MacMillan and Baran achieved a significant milestone in the XEC between carboxylic acids, further broadening the scope of research in this area. Also, advancements in the XEC of alcohols have been noted, with researchers including Weix, Lian, Tu, and Stahl conducting pioneering work and successfully executing the XEC of protective groups. It is foreseen that the ongoing research endeavors will primarily concentrate on the expansion of diverse electrophiles.

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来源期刊
Chinese Journal of Chemistry
Chinese Journal of Chemistry 化学-化学综合
CiteScore
8.80
自引率
14.80%
发文量
422
审稿时长
1.7 months
期刊介绍: The Chinese Journal of Chemistry is an international forum for peer-reviewed original research results in all fields of chemistry. Founded in 1983 under the name Acta Chimica Sinica English Edition and renamed in 1990 as Chinese Journal of Chemistry, the journal publishes a stimulating mixture of Accounts, Full Papers, Notes and Communications in English.
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