LiClO在乙腈中的预电解：苄基醚和缩醛与烯丙基三甲基硅烷及其他碳亲核试剂的电化学诱导质子解碳-碳键形成反应

Pre-electrolysis of LiClO in Acetonitrile: Electrochemically Induced Protolytic Carbon-Carbon Bond Formation of Benzylic Ethers and Acetals with Allyl Trimethylsilane and Other Carbon Nucleophiles.

作者信息

Fastie Cornelius, Li Luomo, Bätcher Moritz, Hilt Gerhard

机构信息

Institut für Chemie, Universität Oldenburg, Carl-von-Ossietzky-Str. 9-11, Oldenburg D-26129, Germany.

出版信息

J Org Chem. 2023 Sep 1;88(17):12526-12530. doi: 10.1021/acs.joc.3c01256. Epub 2023 Aug 18.

DOI:10.1021/acs.joc.3c01256

PMID:37594465

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10476155/

Abstract

The pre-electrolysis of LiClO in acetonitrile in an undivided cell applying only "catalytic" amounts of current (e.g., 0.05 F) led to the formation of a strong acidic medium for the activation of benzylic ethers and acetals. The activated primary and secondary benzylic ethers and acetals could be converted with a range of carbon nucleophiles, such as allyl trimethylsilane, silyl enol ethers, and enol acetates, for the formation of new carbon-carbon bonds. A chemoselective reaction was observed when electron-deficient benzylic acetals were converted with allyl trimethylsilane to the monoallylated products, whereas an electron-rich benzylic acetal led to the double allylated product under activation of both ether groups.

摘要

在未分隔的电池中，于乙腈中对高氯酸锂进行预电解，仅施加“催化”量的电流（例如0.05法拉），会形成用于活化苄基醚和缩醛的强酸性介质。活化后的伯苄基醚、仲苄基醚和缩醛可与一系列碳亲核试剂（如烯丙基三甲基硅烷、烯醇硅醚和烯醇乙酸酯）反应，以形成新的碳-碳键。当缺电子的苄基缩醛与烯丙基三甲基硅烷反应生成单烯丙基化产物时，观察到了化学选择性反应；而富电子的苄基缩醛在两个醚基均被活化的情况下会生成双烯丙基化产物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/51c8/10476155/8aa6980f7870/jo3c01256_0001.jpg

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Pre-electrolysis of LiClO in Acetonitrile: Electrochemically Induced Protolytic Carbon-Carbon Bond Formation of Benzylic Ethers and Acetals with Allyl Trimethylsilane and Other Carbon Nucleophiles.LiClO在乙腈中的预电解：苄基醚和缩醛与烯丙基三甲基硅烷及其他碳亲核试剂的电化学诱导质子解碳-碳键形成反应

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LiClO在乙腈中的预电解：苄基醚和缩醛与烯丙基三甲基硅烷及其他碳亲核试剂的电化学诱导质子解碳-碳键形成反应

Pre-electrolysis of LiClO in Acetonitrile: Electrochemically Induced Protolytic Carbon-Carbon Bond Formation of Benzylic Ethers and Acetals with Allyl Trimethylsilane and Other Carbon Nucleophiles.

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