Visible-Light-Promoted Fe(III)-Catalyzed N–H Alkylation of Amides and <i>N</i>-Heterocycles
Hangcheng Ni, Chaoming Li, Xingzi Shi, Xianyue Hu, Hui Mao
Abstract
The combination of the radical chemistry of ligand-to-metal charge transfer with metal catalysis by a single iron salt helps to realize the visible-light-promoted N–H alkylation of amides and N-heterocycles. A wide variety of amides and nitrogen-containing heterocycles were tolerated in our protocol to give N-alkylated products. The applicability of this protocol was further demonstrated by late-stage alkylation of N–H-containing pharmaceuticals. Moreover, N–H-alkylated α-amino tetrahydrofurans could be transformed into versatile ring-opened amino alcohols under reducing conditions. A mechanistic study revealed that hydrogen atom transfer by a tert-butoxyl radical and a chlorine radical was responsible for the activation of C(sp3)–H precursors.