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Abstract
Comtemporary methods for synthesizing thioesters often necessitate expensive catalysts, and
harsh conditions, making their synthesis from chemical feedstocks challenging. Herein, we report a
concise metal-, photocatalyst-, and oxidant-free electron donar-acceptor (EDA) mediated synthesis of
thioesters via site-selective C-H functionalization using aryl sulfonium salts (acceptor) with potassium
thioacid salts (donor) under visible light irradiation. Our approach enables rapid access to thioesters
from a wide variety of arenes including pharmaceutical and agrochemical compounds, as well as a
diverse range of alkyl, aryl and heteroaryl potassium thioacid salts with excellent efficiency and
regioselectivity. Mechanistic studies supported the formation of an EDA-complex and radical trapping
experiments corroborated the involvement of a radical-based mechanism for the product formation.
Supplementary materials
Title
General Electron-Donor-Acceptor Complex Mediated Thioesterification Reaction via site selective C-H Functionalization using Aryl Sulfonium Salts
Description
Experimental details, characterization data and NMR spectra.
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