Journal
CHEMICAL ENGINEERING JOURNAL
Volume 391, Issue -, Pages -Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.cej.2019.123545
Keywords
Phosphating; Mo-S@Mo-P; Heterojunction; Photocatalytic H-2 evolution
Categories
Funding
- Open Project of State Key Laboratory of High-efficiency Utilization of Coal and Green Chemical Engineering, Ningxia University [2019-KF-36]
- new technology and system for clean energy catalytic production, Major scientific project of North Minzu University [ZDZX201803]
- Laboratory for the development and application of electrochemical energy conversion technology, North Minzu University
- Ningxia low-grade resource high value utilization and environmental chemical integration technology innovation team project of North Minzu University
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The Mo-S@Mo-P heterojunction was successfully constructed on the surface of Mo-S nanospheres by simple phosphating. The introduction of phosphorus created a special electron transfer pathway on the surface of catalyst. Mo-S-P nanoflowers were a unique and unusually hetrojunction photocatalyst constituted of mixed anions. The synergistic effect between sulfur and phosphorus produced a photocatalyst that was more active than those based on pure sulfide or pure phosphide. The Mo-S-P-15 composite photocatalyst sensitized by Eosin Y had a hydrogen evolution amount of 551.8 mu mol in 5 h under visible light irradiation (11036.1 mu mol h(-1) g(-1)). A series of tests had shown that the application of this partial phosphating strategy, on the one hand, increased the reduction potential of the composite catalyst, thereby enhancing the reduction ability of the composite catalyst. On the other hand, it formed a Mo-S@Mo-P heterojunction after partial phosphating, which could effectively improve the separation efficiency of photo-generated charges, prolong the life of photo-generated charges, and improve the performance of photocatalytic hydrogen production. These findings provide new insights into the construction of highly oriented heterojunctions for anisotropic semiconductors and provide new strategies for adjusting the surface structure and carrier behavior of photocatalyst.
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