PNNL

Abstract

Oxidation of H2 is used in the conversion of the chemical energy of the H-H bond into electricity. Electrocatalytic oxidation of H2 typically requires that one metal bind H2, heterolytically cleave the H2, and then undergo two oxidation and two deprotonation steps. We discovered that electrocatalytic oxidation of H2 is catalyzed by a cooperative system using Cp*Cr(CO)3H and [Fe(diphosphine)(CO)3]+. A key step of the proposed mechanism is a rarely observed metal-to-metal hydrogen atom transfer from the Cr-H complex to the Fe, forming a Fe-H bond that is deprotonated and then oxidized electrochemically. The “division of chemical labor” between Cr and Fe features a reaction of the Cr complex with H2, while the Fe complex reacts at the electrode. This cooperative catalysis system does not require that either metal heterolytically cleave H2, and thereby provides a very unusual example of a homolytic reaction being a key step in a molecular electrocatalytic process.