Plasmonic tandem heterojunctions enable high-efficiency charge transfer for broad spectrum photocatalytic hydrogen production  

作  者:Wenxuan Chen Xiu-Qing Qiao Guo Hui Bojing Sun Dongfang Hou Meidi Wang Xueqian Wu Tao Wu Dong-Sheng Li 

机构地区:[1]College of Materials and Chemical Engineering,Key Laboratory of Inorganic Nonmetallic Crystalline and Energy Conversion Materials,China Three Gorges University,Yichang 443002,Hubei,China [2]Hubei Three Gorges Laboratory,Yichang 443007,Hubei,China [3]College of Chemistry and Materials Science,and Guangdong Provincial Key Laboratory of Supramolecular Coordination Chemistry,Jinan University,Guangzhou 510632,Guangdong,China

出  处:《Journal of Energy Chemistry》2025年第1期710-720,共11页能源化学(英文版)

基  金:National Natural Science Foundation of China (Nos. 22371165, 22209098 and 21971143);111 Project (D20015);Opening Found of Hubei Three Gorges Laboratory (SC232001, SK213002)。

摘  要:Rational engineering of semiconductor photocatalysts for efficient hydrogen production is of great significance but still challenging,primarily due to the limitations in charge transfer kinetics.Herein,a fascinating plasmonic tandem heterojunction with the hc-CdS/Mo_(2)C@C heterostructure is aimfully prepared for effectively promoting the charge separation kinetics of the CdS photocatalyst via the synergistic strategy of phase junction,Schottky junction,and photothermal effect.The difference in atomic configuration between cubic-CdS (c-CdS) and hexagonal-CdS (h-CdS) leads to effective charge separation through a typical Ⅱ charge transfer mechanism,and plasmonic Schottky junction further extracts the electrons in the hc-CdS phase junction to realize gradient charge transfer.Besides,the photothermal effect of Mo_(2)C@C helps to expand the light absorption,accelerate charge transfer kinetics,and reduce the hydrogen evolution energy barrier.The carbon layer provides a fast channel for charge transfer and protects the photocatalyst from photocorrosion.As a result,the optimized hc-CMC photocatalyst exhibits a significantly high photocatalytic H_(2)production activity of 28.63 mmol/g/h and apparent quantum efficiency of 61.8%,surpassing most of the reported photocatalysts.This study provides a feasible strategy to enhance the charge transfer kinetics and photocatalytic activity of CdS by constructing plasmonic tandem heterogeneous junctions.

关 键 词:HETEROJUNCTIONS Mo_(2)C LSPR PHOTOCATALYST Phase junction Schottkyjunction Photothermal effect 

分 类 号:F42[经济管理—产业经济]

 

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