Photocatalytic selective oxidation of aromatic alcohols coupled with hydrogen evolution over CdS/WO3 composites

ABSTRACT Simultaneously utilizing photogenerated electrons and holes to convert renewable biomass and its derivatives into corresponding value-added products and hydrogen (H 2 ) is a promising strategy to deal with the energy and environmental crisis. Herein, we report a facile hydrothermal method to construct a direct Z-scheme CdS/WO 3 binary composite for photocatalytic coupling redox reaction, simultaneously producing H 2 and selectively converting aromatic alcohols into aromatic aldehydes in one pot. Compared with bare CdS and WO 3 , the CdS/WO 3 binary composite exhibits significantly enhanced performance for this photocatalytic coupled redox reaction, which is ascribed to the extended light harvesting range, efficient charge carrier separation rate and optimized redox capability of CdS/WO 3 composite. Furthermore, the feasibility of converting various aromatic alcohols to corresponding aldehydes coupled with H 2 evolution on the CdS/WO 3 photocatalyst is proved and a reasonable reaction mechanism is proposed. It is hoped that this work can provide a new insight into the construction of direct Z-scheme photocatalysts to effectively utilize the photogenerated electrons and holes for photocatalytic coupled redox reaction.