Photoinduced
decarboxylative radical reactions of benzoic acids
with electron-deficient alkenes, diborane, and acetonitrile under
organic photoredox catalysis conditions and mild heating afforded
adducts, arylboronate esters, and the reduction product, respectively.
The reaction is thought to involve single-electron transfer promoted
the generation of aryl radicals via decarboxylation. A diverse range
of benzoic acids were found to be suitable substrates for this photoreaction.
Only our two-molecule organic photoredox system can work well for
the direct photoinduced decarboxylation of benzoic acids.
Photoinduced reactions of arylboronic acids with electron deficient alkenes under mild organic photoredox catalysis conditions lead to the formation of Meerwein arylation type adducts via the generation of aryl radicals.
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