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W4313367259 abstract "In this study, novel Z-scheme heterojunction photocatalyst CoWO4/RGO/g-C3N4 was successfully fabricated by a facial hydrothermal. Obtained morphology and topography studies indicated that deposition of reduced graphene oxide (RGO) and CoWO4 nanoparticles did not affect the structure of g-C3N4 sheets. However, optical results showed that visible light absorption of the material was significantly improved. The synthesized heterojunction photocatalyst exhibited improved photocatalytic performance in the novel degradation of rhodamine B, even upon visible irradiation. The improved photocatalytic performance was ascribed to interfacial contact between g-C3N4 and CoWO4 in a Z-scheme heterojunction in which RGO served as electron mediator accelerating its transfer between g-C3N4 and CoWO4 to minimize recombination of photogenerated electron-hole pairs. Therefore, rhodamine B degradation by CoWO4/RGO/g-C3N4 was 1.87 times higher than pristine g-C3N4. The synthesized heterojunction was relatively stable with no distinct reduction in photocatalytic activity after three recycling runs. The fabrication of heterojunction CoWO4/RGO/g-C3N4 is an efficient strategy to develop high-performance photocatalysts for various photocatalytic applications.Practical ApplicationsThe process of rapid industrialization and modernization has led to a global population explosion and resulting severe environmental pollution of soil, water, and air. In the process of treating environmental pollutants, humans leave wastewater with a large amount of hazardous pollutants such as heavy metals, carcinogenic metals, pesticides, insecticides, herbicides, and dyes, which are discharged directly into ecosystem and the natural environment. There are many different methods and materials to remove these pollutants. Among the most optimal approaches to remove pollutants are photocatalysis and carbon nitride (g-C3N4)-based nanomaterials (g-C3N4 is a nonmetallic semiconductor material with high thermal, chemical stability, low bandgap energy, and a layered structure similar to graphite). It is useful in reducing operating costs and the scale of the equipment system and increasing recovery of contaminants after reaction. Due to its advantage in specific surface area, which is a very important property for pollutant removal, g-C3N4 materials are currently being used as advanced materials. It has the potential for future removal of pollutants compared with previous traditional materials. This study summarizes the potential use of this nanomaterial to remove contaminants in solution, and future directions for developing countries such as Vietnam." @default.
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W4313367259 date "2023-03-01" @default.
W4313367259 modified "2023-10-14" @default.
W4313367259 title "Synthesis and Characterization of Z-Scheme Heterojunction CoWO4/RGO/g-C3N4 as a Visible Light-Driven Photocatalyst for Novel Removal of Organic Pollutant" @default.
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W4313367259 doi "https://doi.org/10.1061/joeedu.eeeng-7036" @default.
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