In recent years,inorganic oxide semiconductors have received vast attention as photocatalysts for hydrogen(H_(2))evolution.However,poor H_(2)evolution activity and rapid recombination of the photoexcited charge carrie...In recent years,inorganic oxide semiconductors have received vast attention as photocatalysts for hydrogen(H_(2))evolution.However,poor H_(2)evolution activity and rapid recombination of the photoexcited charge carriers confine their practical applications.To address these constraints of pure inorganic oxide semiconductor photocatalysts,the creation of S-scheme heterojunctions has emerged as a promising alternative,which efficiently enhances optical absorption,promotes efficient charge separation.展开更多
基金support from China/Shandong University International Postdoctoral Exchange Program,the Shandong Provincial Natural Science Foundation(ZR2024ME103)the Shandong Excellent Young Scientists Fund Program(OVERSEAS)(2023HWYQ-021,2022HWYQ-011)+2 种基金the National Natural Science Foundation of China(22271266)the USTC-Yanchang Petroleum New Energy Joint Research Project(2022ZKD-02)the Fundamental Research Funds for the Central Universities(YD2340002001).
文摘In recent years,inorganic oxide semiconductors have received vast attention as photocatalysts for hydrogen(H_(2))evolution.However,poor H_(2)evolution activity and rapid recombination of the photoexcited charge carriers confine their practical applications.To address these constraints of pure inorganic oxide semiconductor photocatalysts,the creation of S-scheme heterojunctions has emerged as a promising alternative,which efficiently enhances optical absorption,promotes efficient charge separation.
