Abstract

Visible-light-driven photocatalyst g-C3N4/ReC converting CO2 to fuels is a promising technology to solve climate change and energy demand. The redshift of the absorption region and the low luminescence intensity of g-C3N4/ReC contributes to enhance the photocatalytic activity. The CO formation and selectivity reach the highest TONCO = 28.81 at 210 min and 94.7%, respectively. The photocatalytic efficiency is enhanced 5.6 times compared ReC. The g-C3N4/ReC firstly combines of a semiconductor and ReC complex, contributes to the design of novel visible-driven photocatalytic systems working under low-intensity visible-light irradiation.

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