Fe(II)-Catalyzed Metal-Ligand Cooperative Approach for Selective C3 -Alkylation of Indoles

Herein, we report a straightforward approach for synthesizing C3 -alkylated indoles selectively via an iron-catalyzed alkylation of indoles using alcohols as the alkylating agents. A well-defined, air-stable, and easy-to-prepare Fe(II) catalyst of a redox-active tridentate arylazo scaffold was used as a catalyst. Various C3 -alkylated indoles were prepared selectively in moderate to good isolated yields by coupling indoles with different substituted alcohols. The methodology is compatible with the gram-scale synthesis. Control experiments were performed to unveil the mechanism, which revealed that the alkylation reaction proceeds via borrowing-hydrogen pathway where the coordinated azo-aromatic ligand actively participates during catalysis, acting as an electron and hydrogen reservoir.