Litcius/Paper detail

Sequential C–F bond functionalizations of trifluoroacetamides and acetates via spin-center shifts

You‐Jie Yu, Feng‐Lian Zhang, Tianyu Peng, Chang-Ling Wang, Jie Cheng, Chen Chen, K. N. Houk, Yi‐Feng Wang

2021Science312 citationsDOI

Abstract

Defluorinative functionalization of readily accessible trifluoromethyl groups constitutes an economical route to partially fluorinated molecules. However, the controllable replacement of one or two fluorine atoms while maintaining high chemoselectivity remains a formidable challenge. Here we describe a general strategy for sequential carbon-fluorine (C-F) bond functionalizations of trifluoroacetamides and trifluoroacetates. The reaction begins with the activation of a carbonyl oxygen atom by a 4-dimethylaminopyridine-boryl radical, followed by a spin-center shift to trigger the C-F bond scission. A chemoselectivity-controllable two-stage process enables sequential generation of difluoro- and monofluoroalkyl radicals, which are selectively functionalized with different radical traps to afford diverse fluorinated products. The reaction mechanism and the origin of chemoselectivity were established by experimental and computational approaches.

Topics & Concepts

Center (category theory)ChemistryBondSpin (aerodynamics)StereochemistryCrystallographyEngineeringBusinessAerospace engineeringFinanceFluorine in Organic ChemistryCyclopropane Reaction MechanismsAsymmetric Synthesis and Catalysis