1. Photodegradation of Wastewater Containing Organic Dyes Using Modified G-C 3 N 4 -Doped ZrO 2 Nanostructures: Towards Safe Water for Human Beings.
- Author
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Mosleh, Ahmed T., Al-Harbi, Fatemah F., Gouadria, Soumaya M., Zyoud, Samer H., Zahran, Heba Y., Hussien, Mai S. A., and Yahia, Ibrahim S.
- Subjects
HYBRID materials ,HUMAN beings ,ORGANIC dyes ,NITRIDES ,SEMICONDUCTOR materials ,PHOTODEGRADATION ,NANOSTRUCTURES ,METHYLENE blue ,DYE-sensitized solar cells - Abstract
Historically, the photocatalytic efficacy of graphitic carbon nitride (g-C
3 N4 ) has been constrained by a rapid charge recombination rate and restricted sensitivity to visible light. To overcome these limitations and enhance the performance of g-C3 N4 , the strategic formation of heterojunctions with semiconductor materials is deemed the optimal approach. The present study employed a facile sonication-assisted pyrolysis method to synthesize a g-C3 N4 @ZrO2 nanocomposite photocatalyst. This hybrid material was characterized extensively using a comprehensive suite of analytical techniques, including XRD, SEM, EDX, FTIR, and UV-Vis DRS. A comparative analysis of photocatalytic applications under identical conditions was conducted for all synthesized materials, wherein they were subjected to UVc light irradiation. The photocatalytic degradation of various dye models, such as MB, EY, and a combination of dyes, was assessed using the prepared nanocomposites. The g-C3 N4@ZrO2 photocatalysts showcased superior photocatalytic performance, with a particular variant, g-CNZ6 , exhibiting remarkable activity. With a bandgap energy of 2.57 eV, g-CNZ6 achieved impressive degradation efficiencies of 96.5% for MB and 95.6% for EY within 40 min. Following previous studies, the superoxide radical anions (O2 − . and h+ ) were largely accountable for the degradation of MB. Therefore, the observed efficacy of the g-C3 N4@ZrO2 nanocomposite photocatalyst can be attributed to the increased generation of these reactive species. [ABSTRACT FROM AUTHOR]- Published
- 2024
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