New Radical Borylation Pathways for Organoboron Synthesis Enabled by Photoredox Catalysis
Jing Qi, Feng‐Lian Zhang, Ji‐Kang Jin, Qiang Zhao, Bin Li, Lin‐Xuan Liu, Yi‐Feng Wang
Abstract
Abstract Radical borylation using N ‐heterocyclic carbene (NHC)‐BH 3 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 abstraction 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.