Visible light-promoted copper catalyzed regioselective acetamidation of terminal alkynes by arylamines

Herein, we describe a copper photoredox catalyzed synthesis of acetamide via regioselective C-N coupling of arylamines with terminal alkynes using molecular oxygen (O 2 ) as an oxidant at room temperature under visible light irradiation (47 examples). Unique simultaneous formation of both amide and ester functionalities occurs via intramolecular cyclization in a single-step reaction in the case of anthranilic acids using inexpensive copper as a catalyst and eco-friendly O 2 as an oxidant and reagent. Different substrates undergo different reaction pathways to generate similar acetamide products, as evidenced by 18 O 2 labelling experiments. The current protocol was also applied for the rapid, few step preparation of biologically active inhibitors (BACE-1 and PDE4). This process can be readily scaled up to a gram scale, and calculations of green metrics suggest the economic feasibility and eco-friendly nature of the current photoredox approach. Herein, we describe a copper photoredox catalyzed synthesis of acetamide via regioselective C-N coupling of arylamines with terminal alkynes using molecular oxygen (O 2 ) as an oxidant at room temperature under visible light irradiation (47 examples).