Transition metals can assemble to form multi nuclear complexes by engaging in direct metal-to-metal interactions. Metal metal covalent bonds provide a large perturbation in electronic structure, relative to mononuclear metal ions, and the unique properties of these dinuclear fragments can be harnessed in a broad range of applications for example, as chromophores in photochemical processes, redox centers in molecular electronics, or structural elements in metal organic materials. There is a growing body of evidence that metal metal bonds may also be formed under conditions relevant to catalysis and play a key role in transformations that were previously assumed to only involve mononuclear species. These findings have stimulated interest in characterizing multinuclear reaction pathways and developing well-defined multinuclear platforms as catalytic active sites. In this Perspective, we present case studies in this emerging area of catalysis research, emphasizing the impact of metal metal bonding in either enhancing or depressing the rate and/or selectivity of a catalytic organic transformation.

• 出版日期2017-2