Cathodic N–O Bond Cleavage of N-Alkoxy Amide

Eisuke SATO; Sayaka OGITA; Koichi MITSUDO; Seiji SUGA

doi:10.5796/electrochemistry.23-67079

This article has now been updated. Please use the final version.

UNCORRECTED PROOF

Cathodic N–O Bond Cleavage of N-Alkoxy Amide

Eisuke SATO , Sayaka OGITA, Koichi MITSUDO, Seiji SUGA

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Keywords: N-Alkoxy Amide, Cathodic Reduction, Weinreb Amide

JOURNAL OPEN ACCESS Advance online publication
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Article ID: 23-67079

DOI https://doi.org/10.5796/electrochemistry.23-67079

The final version of this article is now available: Vol. 91 (2023), No. 11 pp. 112005-112005

UNCORRECTED PROOF： September 15, 2023
ACCEPTED MANUSCRIPT： September 02, 2023

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Abstract

Cathodic reduction efficiently cleaved N–O bonds. The simple cathodic reduction of Weinreb amides in a divided cell afforded the corresponding amide in good yields. Cyclic voltammetry experiments and density functional theory calculations suggested that the direct reduction of the N-methoxy amide generates the methoxy radical and amide anion. The release of methanol derived from methoxy radical would be the driving force of the N–O bond cleavage.

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