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CoP-modified CdS for enhanced stability and photocatalytic hydrogen production under visible light.

Zijun LiYiqiao WangYongping LuoRui XiaoHao YeYu XieYongcun MaYong ChenYun Ling
Published in: Physical chemistry chemical physics : PCCP (2023)
The weak electron-hole separation ability and the more severe photocorrosion of CdS largely limit its hydrogen precipitation performance. In this study, CoP loading on the surface of CdS was utilized to form a type I heterojunction. The photocurrent density increased from 2 μA cm -2 to 20 μA cm -2 . When the loading of CoP was 10%, the best photocatalytic performance reached 4.43 mmolg -1 h -1 under visible light, which was 20.1 times higher than that of CdS (0.22 mmolg -1 h -1 ). In addition, the loading of CoP solved the problem of CdS photocorrosion. After 5 cycles of simulated solar irradiation, the performance of 10% CoP/CdS remained at 93% of the initial test. This work provides new ideas for the design of low photocorrosion and high-performance catalysts.
Keyphrases
  • visible light
  • highly efficient
  • radiation induced
  • drug induced