Developing an effective photocatalyst to promote CO2 conversion into solar fuel is necessary for addressing the global challenge of energy sustainability and environmental problems. In this work, we report the facile fabri-cation of Cd-In-S (CIS) colloidal nanocrystals as an efficient visible light-responsive photocatalyst for the con-version of CO2 to CO. Both experimental and theoretical investigations reveal the importance of Cd to In ratio which positively influences not only the charge carrier separation rate but also the electronic structure of the CIS samples. In particular, the light absorption ability, redox potential of photo-induced electrons, and charge transfer ability were effectively modulated, endowing the optimized sample with a high CO evolution rate of 22.9 mu mol h-1 and selectivity up to 80 % under visible light irradiation. The findings of this work can provide guidance for the design and construction of highly efficient catalytic materials for CO2 conversion.

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