Journal
JOURNAL OF ALLOYS AND COMPOUNDS
Volume 955, Issue -, Pages -Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.jallcom.2023.170265
Keywords
Photocatalytic; Hydrogen; Zn(1-x)CdxS; Solid solution; Defect states
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In this study, Zn(1-x)CdxS solid solution with different Zn/Cd molar ratio was synthesized and tested for photocatalytic H2 production from water. The bandgap, charge carrier separation efficiency, and surface defect states of the Zn(1-x)CdxS can be adjusted by altering the Zn/Cd molar ratio. The Zn0.8Cd0.2S exhibited the best performance for photocatalytic H2 production with a H2 production rate of 7.71 mmol center dot g-1 center dot h-1.
Photocatalytic H2 production using solar energy has received great attention, but suffers from low photo -catalytic efficiency. Herein, Zn(1-x)CdxS solid solution with different Zn/Cd molar ratio was synthesized by a solvothermal method, and tested for photocatalytic H2 production from water. The bandgap, charge carrier separation efficiency and surface defect states of the Zn(1-x)CdxS can be adjusted by altering the Zn/Cd molar ratio. The separation efficiency of photogenerated electrons and holes was greatly enhanced with the Zn/Cd molar ratio of 0.8:0.2. Moreover, the Zn0.8Cd0.2S exposed most surface defect states compared to those of other Zn(1-x)CdxS, which can be act as electron pools and active sites for improving photocatalytic H2 production. Therefore, when the molar ratio of Zn/Cd is 0.8:0.2, the Zn0.8Cd0.2S exhibited the best perfor-mance for photocatalytic H2 production with the H2 production rate of 7.71 mmol center dot g-1 center dot h-1, which is much higher than that of ZnS (17 mu mol center dot g-1 center dot h-1) and CdS (5.37 mu mol center dot g-1 center dot h-1). This work provides an in-depth un-derstanding of the surface defect states for enhancing the photocatalytic H2 production.(c) 2023 Elsevier B.V. All rights reserved.
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