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Abstract A hybrid membrane successfully fabricated via chemical vapor deposition can be used as a visible-light photocatalyst to effectively degrade water-soluble methylene dye. High pyrolysis temperatures cause urea precursor to… Click to show full abstract
Abstract A hybrid membrane successfully fabricated via chemical vapor deposition can be used as a visible-light photocatalyst to effectively degrade water-soluble methylene dye. High pyrolysis temperatures cause urea precursor to form thin g-C3N4 nanosheets and to grow on the surface of carbonized cellulose-based filter paper, which functions as a stable substrate and charge transfer carrier. Via oxygen plasma treatment, the hybrid membrane exhibits wettability in water, which is beneficial in terms of adsorbing organic pollutions. Consequently, as a static photocatalyst and flow-through membrane, it presents higher levels of photocatalytic activity for degrading methylene blue. Meanwhile, the hybrid membrane maintains a steady flux and high levels of degrade efficiency after 5 cycles under visible-light irradiation.
Journal Title: Materials Letters
Year Published: 2019
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