Bimetallic Cooperativity in Proton Reduction with an Amido-Bridged Cobalt Catalyst.

The bimetallic catalyst [CoII2 (L1 )(bpy)2 ]ClO4 (1), in which L1 is an [NN'2 O2 ] fused ligand, efficiently reduced H+ to H2 in CH3 CN in the presence of 100 equiv of HOAc with a turnover number of 18 and a Faradaic efficiency of 94 % after 3 h of bulk electrolysis at -1.6 V (vs. Ag/AgCl). This observation allowed the proposal that this bimetallic cooperativity is associated with distance, angle, and orbital alignment of the two Co centers, as promoted by the unique Co-Namido -Co environment offered by L1 . Experimental results revealed that the parent [CoII CoII ] complex undergoes two successive metal-based 1 e- reductions to generate the catalytically active species [CoI CoI ], and DFT calculations suggested that addition of a proton to one CoI triggers a cooperative 1 e- transfer by each of these CoI centers. This 2 e- transfer is an alternative route to generate a more reactive [CoII (CoII -H- )] hydride, thus avoiding the CoIII -H- required in monometallic species. This [CoII (CoII -H- )] species then accepts another H+ to release H2 .