4.7 Article

3D ordered macroporous sulfur-doped g-C3N4 /TiO2 S-scheme photocatalysts for efficient H2O2 production in pure water

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JOURNAL MATER SCI TECHNOL
DOI: 10.1016/j.jmst.2023.03.045

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Photocatalysis; Step-scheme heterojunction; Three dimensionally ordered macroporous; Hydrogen peroxide; O 2 reduction reaction

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Researchers fabricated a S-scheme heterojunction photocatalyst by coupling TiO2 with three dimensionally ordered macroporous sulfur-doped graphitic carbon nitride (3DOM SCN/T) through electrostatic self-assembly. The optimized photocatalyst achieved a high activity in photocatalytic H2O2 production without the addition of hole scavengers. The outstanding performance can be attributed to the synergy between the 3DOM framework and the S-scheme heterojunction. Finally, a proposed mechanism of photocatalytic H2O2 production over the 3DOM SCN/T S-scheme composite is presented. This work provides novel insights into the development of efficient photocatalysts for H2O2 production from water and O2.
Photocatalytic hydrogen peroxide (H2O2) production offers a clean and cost-efficient alternative to the traditional anthraquinone oxidation approach. Herein, a step-scheme (S-scheme) heterojunction photocat-alyst is fabricated by coupling TiO2 with three dimensionally ordered macroporous sulfur-doped graphitic carbon nitride (3DOM SCN/T) by electrostatic self-assembly. The optimized photocatalyst achieved a high photocatalytic H2O2 production activity with a yield of 2128 mu mol h -1g -1 without the addition of hole scavengers. The remarkable performance was attributed to the synergy between the 3DOM framework and the S-scheme heterojunction. The former enhances light harvesting and provides abundant active sites for surface reactions, while the latter promotes the spatial separation of photogenerated carriers and enhances the redox power. Finally, the mechanism of photocatalytic H2O2 production over the 3DOM SCN/T S-scheme composite is proposed. This work provides novel insights into the development of effi-cient photocatalysts for H2O2 production from water and O 2 .(c) 2023 Published by Elsevier Ltd on behalf of The editorial office of Journal of Materials Science & Technology.

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