Design of catalysts for site-selective and enantioselective functionalization of non-activated primary C–H bonds

C–H functionalization represents a promising approach for the synthesis of complex molecules. Instead of relying on modifying the functional groups present in a molecule, the synthetic sequence is achieved by carrying out selective reactions on the C–H bonds, which traditionally would have been considered to be the unreactive components of a molecule. A major challenge is to design catalysts to control both the site- and stereoselectivity of the C–H functionalization. We have been developing dirhodium catalysts with different selectivity profiles in C–H functionalization reactions with donor/acceptor carbenes as reactive intermediates. Here we describe a new dirhodium catalyst capable of the functionalization of non-activated primary C–H bonds with high levels of site selectivity and enantioselectivity. Catalyst-controlled site selectivity without relying on the influence of a directing group within the substrate is a major challenge in C–H functionalization. Now a catalyst is described that selectively functionalizes non-activated primary C–H bonds in the presence of a variety of other C–H bonds and functional groups.