Recent Advances in Transition Metal‐Catalyzed Asymmetric Radical Reactions

Control of enantioselectivity in radical reactions was a formidable challenge for organic chemists for decades. Thanks to the key role of transition metal complexes both in promoting and highly enantioselectively controlling sophisticated synthetic routes, great improvements in this filed have been achieved by merging transition‐metal asymmetric catalysis with radical chemistry. Herein we provide a perspective of some of the most significant contributions in the field during the past decades. Accordingly, the major advances are classified based on different strategies for controlling stereoselectivity including: (1) chiral metal complex chelation, (2) chiral metal complex combined with radical species and reductive elimination, (3) chiral metal complex outer‐sphere substitution by radical intermediate. Brief discussion of mechanism is presented whenever relevant.