A high-performance oxygen evolution catalyst in neutral-pH for sunlight-driven CO 2 reduction

The efficiency of sunlight-driven reduction of carbon dioxide (CO 2 ), a process mimicking the photosynthesis in nature that integrates the light harvester and electrolysis cell to convert CO 2 into valuable chemicals, is greatly limited by the sluggish kinetics of oxygen evolution in pH-neutral conditions. Current non-noble metal oxide catalysts developed to drive oxygen evolution in alkaline solution have poor performance in neutral solutions. Here we report a highly active and stable oxygen evolution catalyst in neutral pH, Brownmillerite Sr 2 GaCoO 5 , with the specific activity about one order of magnitude higher than that of widely used iridium oxide catalyst. Using Sr 2 GaCoO 5 to catalyze oxygen evolution, the integrated CO 2 reduction achieves the average solar-to-CO efficiency of 13.9% with no appreciable performance degradation in 19 h of operation. Our results not only set a record for the efficiency in sunlight-driven CO 2 reduction, but open new opportunities towards the realization of practical CO 2 reduction systems.