锆茂和光氧化还原催化实现未活化烷基氯的氯原子转移

Chlorine Atom Transfer of Unactivated Alkyl Chlorides Enabled by Zirconocene and Photoredox Catalysis.

作者信息

Okita Toshimasa, Aida Kazuhiro, Tanaka Keisuke, Ota Eisuke, Yamaguchi Junichiro

机构信息

Department of Applied Chemistry, Waseda University, 513 Wasedatsurumakicho, Shinjuku, Tokyo 162-0041, Japan.

出版信息

Precis Chem. 2023 Feb 10;1(2):112-118. doi: 10.1021/prechem.2c00002. eCollection 2023 Apr 24.

DOI:10.1021/prechem.2c00002

PMID:40881109

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12382232/

Abstract

Alkyl chlorides are robust precursors to carbon radicals; however, their relative inertness has hampered their practical use. Although modern photochemical strategies have greatly enhanced the utility of alkyl chlorides as radical precursors, these methods often depend on strongly reducing conditions leading to unproductive side reactions. Here, we report a catalytic radical generation from 1°, 2°, and 3° unactivated alkyl chlorides with zirconocene and photoredox catalysis, which enables both hydrogenation and borylation on a range of structurally complex molecules. This mild zirconocene-catalyzed protocol shows that zirconium can render the C-Cl bond cleavage more exergonic and can lower the activation energy of the transition state, amplifying the ability of metallocenes toward halogen atom transfer.

摘要

烷基氯是碳自由基的稳定前体；然而，它们相对的惰性阻碍了它们的实际应用。尽管现代光化学策略极大地提高了烷基氯作为自由基前体的效用，但这些方法通常依赖于强还原条件，导致产生无意义的副反应。在此，我们报道了通过二茂锆和光氧化还原催化从一级、二级和三级未活化烷基氯生成催化自由基，这使得一系列结构复杂的分子能够进行氢化和硼化反应。这种温和的二茂锆催化方案表明，锆可以使C-Cl键的断裂更加放能，并能降低过渡态的活化能，增强金属茂对卤原子转移的能力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3410/12382232/9b2842fcabf7/pc2c00002_0001.jpg

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锆茂和光氧化还原催化实现未活化烷基氯的氯原子转移

Chlorine Atom Transfer of Unactivated Alkyl Chlorides Enabled by Zirconocene and Photoredox Catalysis.

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