Catalyst-free electrochemical dearomatization of pyridine derivatives

Green Synthesis and Catalysis Pub Date : 2024-05-01 DOI:10.1016/j.gresc.2022.06.006
Kui Wang , Yingjun Tian , Baoying Li , Ling Wang , Wei Gao , Xiaofei Jia , Ruiming Wang , Yanping Zhu , Jianbin Chen
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Abstract

We demonstrated herein an electrochemical dearomatizative alkylation of Katritzky salts, wherein Katritzky salts were harnessed as both radical acceptors and donors. A wide range of privileged dihydropyridine scaffolds was constructed with good to excellent yields. Cyclic voltammetry (CV) and electron paramagnetic resonance (EPR) results confirmed the key intermediates-dihydropyridine radicals and gram-scale reaction highlighted the practical and sustainable feature of the newly developed protocol.

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吡啶衍生物的无催化剂电化学脱芳烃反应
我们在此展示了卡氏盐的电化学脱芳烃烷基化反应,其中卡氏盐既可用作自由基受体,也可用作自由基供体。研究人员以良好至极佳的产率构建了多种特效二氢吡啶支架。循环伏安法(CV)和电子顺磁共振(EPR)结果证实了二氢吡啶自由基的关键中间体,而克级反应则突出了新开发方案的实用性和可持续性。
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Green Synthesis and Catalysis
Green Synthesis and Catalysis
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