Enantioselective Organophotocatalytic Telescoped Synthesis of a Chiral Privileged Active Pharmaceutical Ingredient

The continuous flow, enantioselective, organophotoredox catalytic asymmetric alkylation of aldehydes was studied, by using a homemade, custom-designed photoreactor for reactions under cryogenic conditions. Going from microfluidic conditions up to a 10 mL mesofluidic reactor, an increase of productivity by almost 18000 % compared to the batch reaction was demonstrated. Finally, for the first time, a stereoselective photoredox organocatalytic continuous flow reaction in a fully telescoped process for an active pharmaceutical ingredient (API)synthesis was successfully achieved. The final process consists of four units of operation: visible light-driven asymmetric catalytic benzylation under continuous flow, inline continuous work-up, neutralisation and a final oxidative amidation step afforded the pharmaceutically active molecule in 95 % e.e.

Automated summary

This study investigated the continuous flow, enantioselective, organophotoredox catalytic asymmetric alkylation of aldehydes using a homemade photoreactor. Significant productivity increase was achieved compared to batch reactions, and the synthesis of an active pharmaceutical ingredient (API) in high enantioselectivity was successfully demonstrated.