Spatially Separated CdS Shells Exposed with Reduction Surfaces for Enhancing Photocatalytic Hydrogen Evolution |
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Authors: | Mingyang Xing Bocheng Qiu Mengmeng Du Qiaohong Zhu Lingzhi Wang Jinlong Zhang |
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Affiliation: | Key Laboratory for Advanced Materials and Institute of Fine Chemicals, School of Chemistry and Molecular Engineering, East China University of Science and Technology, Shanghai, P. R. China |
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Abstract: | To the photocatalytic H2 evolution, the exposure of a reduction surface over a catalyst plays an important role for the reduction of hydrogen protons. Here, this study demonstrates the design of a noble‐metal‐free spatially separated photocatalytic system exposed with reduction surfaces (MnOx @CdS/CoP) for highly solar‐light‐driven H2 evolution activity. CoP and MnOx nanoparticles are employed as the electron and hole collectors, which are selectively anchored on the outer and inner surface of CdS shells, respectively. Under solar light irradiation, the photogenerated holes and electrons can directionally move to the MnOx and CoP, respectively, leading to the exposure of a reduction surface. As a result, the H2 evolution increases from 32.0 to 238.4 µmol h?1, which is even higher than the activity of platinum‐loaded photocatalyst (MnOx @CdS/Pt). Compared to the pure CdS with serious photocorrosion, the MnOx @CdS/CoP maintains a changeless activity for the H2 evolution and rhodamine B degradation, even after four cycles. The research provides a new strategy for the preparation of spatially separated photocatalysts with a selective reduction surface. |
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Keywords: | CdS shells H2 evolution photocatalysis reduction surface spatial separation |
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