Herein, a CuSe(CuSe) yolk-shell structure (CC) was synthesized when room temperature was 25 degree Celsius using CuO as a soft template, and the g-CN/CuSe(CuSe) heterojunction (CC-G) was formed by coupling appropriate amounts of g-CN in the selenization process to provide a novel, green, economical, and efficient photo-Fenton catalytic material. Photo-Fenton degradation experiments proved that in the presence of hydrogen peroxide (HO), a small amount of g-CN hybridization on Cu-based Fenton catalysts significantly improved methylene blue (MB) degradation. The suitable amount of g-CN hybridization was selected according to the degradation efficiency. The mass of g-CN constituted 20% of the mass of the CuO soft template. The composite material prepared using this combination (CC-G-20) exhibited the best MB degradation performance. The MB degradation efficiency in the CC-G-20/HO/visible light system was almost 98.3% after 60 min, which is higher than those of the parent materials (g-CN, 12.7%; CC, 58.6%) and had cyclic stability. The catalytic system can also stably degrade MB under dark conditions, where the MB degradation was almost 82% after 60 min. The heterojunction prevented excessive electrons and holes (e and h) recombination, stabilizing the reactive active substance of hydroxyl in the photo-Fenton-like catalytic system. Electron paramagnetic resonance and photoluminescence experiments confirmed this inference.
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| http://dx.doi.org/10.1039/d2ra08309d | DOI Listing |
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