Exploiting attractive non-covalent interactions for the enantioselective catalysis of reactions involving radical intermediates

The past decade has seen unprecedented growth in the development of new chemical methods that proceed by mechanisms involving radical intermediates. This new attention has served to highlight a long-standing challenge in the field of radical chemistry — that of controlling absolute stereochemistry. This Review will examine developments using a strategy that offers enormous potential, in which attractive non-covalent interactions between a chiral catalyst and the substrate are leveraged to exert enantiocontrol. In a simplistic sense, such an approach mimics the modes of activation and control in enzyme catalysis and the realization that this can be achieved in the context of small-molecule catalysts has had sizable impact on the field of asymmetric catalysis in recent years. This strategy is now starting to quickly gather pace as a powerful approach for control of enantioselectivity in radical reactions and we hope that this focused survey of progress so far will inspire future developments in the area. The past decade has seen unprecedented growth in the development of chemical methods that proceed by mechanisms involving radical intermediates, but controlling absolute stereochemistry has been a longstanding challenge in this area. This Review Article examines how attractive non-covalent interactions between a chiral catalyst and the substrate can exert enantiocontrol in radical reactions.