Chemoselective Transamidation of Thioamides by Transition‐Metal‐Free N−C(S) Transacylation

Abstract Thioamides represent highly valuable isosteric in the strictest sense “single‐atom substitution” analogues of amides that have found broad applications in chemistry and biology. A long‐standing challenge is the direct transamidation of thioamides, a process which would convert one thioamide bond (R−C(S)−NR 1 R 2 ) into another (R−C(S)−NR 3 N 4 ). Herein, we report the first general method for the direct transamidation of thioamides by highly chemoselective N−C(S) transacylation. The method relies on site‐selective N‐ tert ‐butoxycarbonyl activation of 2° and 1° thioamides, resulting in ground‐state‐destabilization of thioamides, thus enabling to rationally manipulate nucleophilic addition to the thioamide bond. This method showcases a remarkably broad scope including late‐stage functionalization (>100 examples). We further present extensive DFT studies that provide insight into the chemoselectivity and provide guidelines for the development of transamidation methods of the thioamide bond.