Abstract
Light-driven CO2 reduction was performed in a two-electrode photoelectrochemical cell (PEC) composed of a Co4O4 cubane complex modified BiVO4 photoanode and a cobalt phthalocyanine complex modified carbon cloth cathode. The hybrid electrodes assembled by the simple physical absorption of hydrophobic molecular catalysts exhibit long-term stability in aqueous solution. Under 1 sun AM 1.5 G illumination, simultaneous oxygen and CO evolution at approximately 2: 1 ratio were achieved in a CO2-saturated NaHCO3 aqueous solution with high Faradaic efficiency up to 87% for CO production. Control experiments reveals a crucial role of immobilized molecular catalysts in promoting the activity and selectivity for both half reactions. A solar-to-CO conversion efficiency of 0.44% was realized at a cell potential of 0.8 V, which is the highest efficiency for CO2 to CO conversion in PEC devices based on noble-metal-free materials.
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