Sequential C−F Bond Transformation of the Difluoromethylene Unit in Perfluoroalkyl Groups: A Combination of Fine‐Tuned Phenothiazine Photoredox Catalyst and Lewis Acid

A sequential process via photoredox catalysis and Lewis acid mediation for C−F bond transformation of the CF2 unit in perfluoroalkyl groups has been achieved to transform perfluoroalkylarenes into complex fluoroalkylated compounds. A phenothiazine‐based photocatalyst promotes the defluoroaminoxylation of perfluoroalkylarenes with (2,2,6,6‐tetramethylpiperidin‐1‐yl)oxyl (TEMPO) under visible light irradiation, affording the corresponding aminoxylated products. These products undergo a further defluorinative transformation with various organosilicon reagents mediated by AlCl3 to provide highly functionalized perfluoroalkyl alcohols. Our novel phenothiazine catalyst works efficiently in the defluoroaminoxylation. Transient absorption spectroscopy revealed that the catalyst regeneration step is crucial for the photocatalytic aminoxylation. The sequential defluorinative transformation of a difluoromethylene (CF2) unit in perfluoroalkyl compounds has been achieved by a combination of photoredox catalysis and Lewis acid activation. A newly developed phenothiazine‐based catalyst served as an efficient catalyst for defluoroaminoxylation. Spectroscopic measurements revealed the reaction mechanism. AlCl3 facilitated further defluorinative transformation of the aminoxylated compounds.