Abstract
Structured efficient and effective photocatalysts was crucial to improve photocatalytic efficiency. In this work, regular octahedron Cu-MOFs and Mn0.05Cd0.95S nanoparticles were adopted to constitute a S-scheme heterojunction. The Cu-MOFs/Mn0.05Cd0.95S (5 wt%) composite exhibited powerful photocatalytic hydrogen evolution activity of 547.5 μmol after 5 h under visible light irradiation (λ > 420 nm), which was ascribed to structure a S-scheme heterojunction brought great redox capacity and efficient separation and transfer of electrons and holes. The SEM and HRTEM results presented close contact of the Cu-MOFs and Mn0.05Cd0.95S. The PL, TRPL, and electrochemical properties further indicated that the composite photocatalysts had competent photocatalytic performance. The UV–vis DRS indicated that the composite catalyst had excellent light absorption capacity. It was confirmed that the composite photocatalysts owned excellent chemical stability by the XPS, FT-TR, and XRD. The S-scheme process can eliminate useless electrons and holes and provide more electrons to participate H2 evolution reduction. This work contributed new strategy to rational structure heterojunction photocatalysts for hydrogen evolution.
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