Electrochemical Synthesis of Isoxazolines: Method and Mechanism

Samuel D L Holman; Alfie G Wills; Neal J Fazakerley; Darren L Poole; Diane M Coe; Leonard A Berlouis; Marc Reid

doi:10.1002/chem.202103728

Electrochemical Synthesis of Isoxazolines: Method and Mechanism

Chemistry. 2022 Mar 1;28(13):e202103728. doi: 10.1002/chem.202103728. Epub 2022 Feb 10.

Authors

Samuel D L Holman^{1

2}, Alfie G Wills^{1

2}, Neal J Fazakerley², Darren L Poole², Diane M Coe², Leonard A Berlouis¹, Marc Reid¹

Affiliations

¹ WestCHEM Department of Pure and Applied Chemistry, University of Strathclyde Royal College Building, 204 George Street, Glasgow, G1 1XW, UK.
² GlaxoSmithKline, Medicines Research Centre, Gunnels Wood Road, Stevenage, SG1 2NY, UK.

Abstract

An electrochemical method for the green and practical synthesis of a broad range of substituted isoxazoline cores is presented. Both aryl and more challenging alkyl aldoximes are converted to the desired isoxazoline in an electrochemically enabled regio- and diastereoselective reaction with electron-deficient alkenes. Additionally, in-situ reaction monitoring methods compatible with electrochemistry equipment have been developed in order to probe the reaction pathway. Supporting analyses from kinetic (time-course) modelling and density functional theory support a stepwise, radical-mediated mechanism, and discounts hypothesised involvement of closed shell [3+2] cycloaddition pathways.

Keywords: density functional calculations; electrochemistry; isoxazoline; mechanisms.

MeSH terms

Alkenes*
Cycloaddition Reaction
Electrons
Isoxazoles*
Oximes

Substances

Alkenes
Isoxazoles
Oximes

Abstract

MeSH terms

Substances

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