@article{oai:nitech.repo.nii.ac.jp:00006915,
 author = {Jiang, Xinxin and 藤, 正督 and Fuji, Masayoshi},
 journal = {名古屋工業大学先進セラミックス研究センター年報 = Annual report Advanced Ceramics Research Center Nagoya Institute of Technology},
 month = {Jul},
 note = {As an important area in the field of advanced materials, TiO2-based photocatalysts have always been researched hot pots. At present, most of the applications of TiO2-based photocatalysts are still in the experimental stage. This research uses commercial TiO2 as the main material and aims to simplify the synthesis method and reduce the experimental cost. This work uses the co catalyst as the starting point to investigate a metal co-catalyst, sulfide co-catalyst, and phosphide co-catalyst. Cu, MoSx and MoP are respectively used to construct a catalytic system to improve the photocatalytic hydrogen production ability of the material. Good loading methods are applied, such as in-situ photo-deposition, ultrasonic adsorption, etc., to optimize the synthesis steps, promote the transfer of electrons and holes between the different materials and improve the photocatalytic performance of the composite materials. The photocatalytic reaction mechanism was revealed by studying the morphology of the catalyst, the combination mode, the separation efficiency of the photogenerated carriers, and the photocatalytic hydrogen production activity under ultraviolet light. The results of this study provide technical support and a theoretical basis for the design and preparation of low-cost, simple and efficient photocatalytic systems., application/pdf},
 pages = {16--24},
 title = {Study on Facile Preparation of Composite Photocatalyst Based on  Titanium Dioxide and Their Photocatalytic Hydrogen Evolution Performance},
 volume = {10},
 year = {2022},
 yomi = {フジ, マサヨシ}
}