电化学过渡金属催化的C-H键官能团化：电力作为化学氧化剂的清洁替代物

Electrochemical Transition-Metal-Catalyzed C-H Bond Functionalization: Electricity as Clean Surrogates of Chemical Oxidants.

作者信息

Chen Jianbin, Lv Shide, Tian Siyu

机构信息

Shandong Provincial Key Laboratory of Molecular Engineering, School of Chemistry and Pharmaceutical Engineering, Qilu University of Technology (Shandong Academy of Sciences), Jinan, 250353, PR China.

出版信息

ChemSusChem. 2019 Jan 10;12(1):115-132. doi: 10.1002/cssc.201801946. Epub 2018 Dec 21.

DOI:10.1002/cssc.201801946

PMID:30280508

Abstract

Transition-metal-catalyzed C-H activation has attracted much attention from the organic synthetic community because it obviates the need to prefunctionalize substrates. However, superstoichiometric chemical oxidants, such as copper- or silver-based metal oxidants, benzoquinones, organic peroxides, K S O , hypervalent iodine, and O , are required for most of the reactions. Thus, the development of environmentally benign and user-friendly C-H bond activation protocols, in the absence of chemical oxidants, are urgently desired. The inherent advantages and unique characteristics of organic electrosynthesis make fill this gap. Herein, recent progress in this area (until the end of September 2018) is summarized for different transition metals to highlight the potential sustainability of electro-organic chemistry.

摘要

过渡金属催化的C-H活化因其无需对底物进行预官能团化而备受有机合成领域的关注。然而，大多数反应都需要使用化学计量过量的化学氧化剂，如铜或银基金属氧化剂、苯醌、有机过氧化物、K₂S₂O₈、高价碘和O₂。因此，迫切需要开发在无化学氧化剂条件下环境友好且用户友好的C-H键活化方法。有机电合成的固有优势和独特特性使其能够填补这一空白。本文总结了该领域（截至2018年9月底）针对不同过渡金属的最新进展，以突出有机电化学的潜在可持续性。

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电化学过渡金属催化的C-H键官能团化：电力作为化学氧化剂的清洁替代物

Electrochemical Transition-Metal-Catalyzed C-H Bond Functionalization: Electricity as Clean Surrogates of Chemical Oxidants.

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