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Monofluoromethyl (CH2F) radical can be easily generated from a sulfoximine-based precursor (CH2F–S(=O)(=NTs)-Ph) by the action of visible-light metal-free photoredox catalysis with readily accessible 1,4-bis(diphenylamino)naphthalene. The catalyst design based on the… Click to show full abstract
Monofluoromethyl (CH2F) radical can be easily generated from a sulfoximine-based precursor (CH2F–S(=O)(=NTs)-Ph) by the action of visible-light metal-free photoredox catalysis with readily accessible 1,4-bis(diphenylamino)naphthalene. The catalyst design based on the high excitation energy (E0,0) and interchromophoric conjugation features a strong reducing power and a high quantum yield of emission of the photocatalyst. In addition, their photophysical properties are preserved in various polar solvents. The present system is amenable to oxy-monofluoromethylation of alkenes with high functional-group tolerance, i.e., single-step synthesis of γ-fluoroalcohol scaffolds from various alkenes. Applications to late-stage functionalization of potentially bioactive molecules are also shown.
Journal Title: ACS Catalysis
Year Published: 2019
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