New Radical Borylation Pathways for Organoboron Synthesis Enabled by Photoredox Catalysis

Radical borylation using N‐heterocyclic carbene (NHC)‐BH3 complexes as boryl radical precursors has emerged as an important synthetic tool for organoboron assembly. However, the majority of reported methods are limited to reaction modes involving carbo‐ and/or hydroboration of specific alkenes and a...

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Veröffentlicht in:Angewandte Chemie 2020-07, Vol.132 (31), p.12976-12984
Hauptverfasser: Qi, Jing, Zhang, Feng‐Lian, Jin, Ji‐Kang, Zhao, Qiang, Li, Bin, Liu, Lin‐Xuan, Wang, Yi‐Feng
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Sprache:eng
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Zusammenfassung:Radical borylation using N‐heterocyclic carbene (NHC)‐BH3 complexes as boryl radical precursors has emerged as an important synthetic tool for organoboron assembly. However, the majority of reported methods are limited to reaction modes involving carbo‐ and/or hydroboration of specific alkenes and alkynes. Moreover, the generation of NHC‐boryl radicals relies principally on hydrogen atom ion with the aid of radical initiators. A distinct radical generation method is reported, as well as the reaction pathways of NHC‐boryl radicals enabled by photoredox catalysis. NHC‐boryl radicals are generated via a single‐electron oxidation and subsequently undergo cross‐coupling with the in‐situ‐generated radical anions to yield gem‐difluoroallylboronates. A photoredox‐catalyzed radical arylboration reaction of alkenes was achieved using cyanoarenes as arylating components from which elaborated organoborons were accessed. Mechanistic studies verified the oxidative formation of NHC‐boryl radicals through a single‐electron‐transfer pathway. NHC‐boryl radicals are generated by single‐electron oxidation of NHC‐BH3 complexes using a photoredox catalytic system. New reaction modes of NHC‐boryl radicals were determined for the facile synthesis of highly elaborated organoboron molecules. Key: N‐heterocyclic carbene (NHC), leaving group (LG).
ISSN:0044-8249
1521-3757
DOI:10.1002/ange.201915619