Abstract
Photoelectrochemical (PEC) CO2 reduction is regarded as an intriguing but severely impeded by poor selectivity of C2 products in aqueous solution. Here, we constructed a hybrid catalyst consisting of active Cu–N sites decorated CuO (CuNx/CuO) for PEC CO2 reduction. The CuNx/CuO photocathode delivers photocurrent density of −1.0 mA/cm2 at 0.2 V vs. RHE, increasing to 2.5 folds of CuO. The hybrid photocathode presents Faradaic efficiencies toward C2 products of 15.2 % at 0.2 V vs. RHE in aqueous solution. Theoretical calculations demonstrate that Cu-N pair with asymmetric d–p orbital anchored on CuO can significantly reduce C–C coupling free energy, stemming from tuned binding strength of intermediates. This makes the OCCO* and *COCH2 intermediates toward C2 products adsorption on Cu-N site easier than that on Cu-Cu site. Besides, the local charge re-distribution induced by Cu-N pair enhances conductivity, giving rise to increased photocurrent density and high electron migration efficiency.
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