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A novel, Z-scheme ZnO@AC@FeO photocatalyst, suitable for the intensification of photo-mediated peroxymonosulfate activation: Performance, reactivity and bisphenol A degradation pathways

In this study, the intensification of a UVC-based PMS activation treatment is performed by a novel photocatalyst. Using ZnO nanoparticles coupled with activated carbon (AC), impregnated by ferroferric oxides (FO, magnetite), as an effective Z-scheme photocatalyst (ZACFO), the effective Bisphenol A (...

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Published in:Journal of environmental management 2022-11, Vol.321, p.115851-115851, Article 115851
Main Authors: Hayati, Farzan, Moradi, Sina, Farshineh Saei, Sara, Madani, Zahra, Giannakis, Stefanos, Isari, Ali Akbar, Kakavandi, Babak
Format: Article
Language:English
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Summary:In this study, the intensification of a UVC-based PMS activation treatment is performed by a novel photocatalyst. Using ZnO nanoparticles coupled with activated carbon (AC), impregnated by ferroferric oxides (FO, magnetite), as an effective Z-scheme photocatalyst (ZACFO), the effective Bisphenol A (BP-A) removal was attained. Several techniques were applied for the characterization of the as-prepared catalyst and proved the successful preparation of ZACFO. The photocatalytic activity of pristine ZnO was significantly improved after its combination with ACFO. It was found that the fabrication of ZACFO heterostructures could inhibit the charge carriers recombination and also accelerate the charge separation of photo-induced e−/h+ pairs. Under this UVC-based photocatalysis-mediated PMS activation system, ZACFO showed an excellent potential as compared to the single constituent catalysts. The complete degradation of 20 mg/L concentration of BP-A was attained in just 20 min with excellent reaction rate constant of 27.3 × 10−2 min−1. Besides, over 60% of TOC was eliminated by the integrated ZACFO/PMS/UV system within 60 min of reaction. The minor inhibition by most matrix components, the high recycling capability with minor metals’ leaching and the effectiveness in complex matrices, constitute this composite method an efficient and promising process for treating real wastewater samples. Finally, based on the photo-produced reactive intermediates and by-products identified, the Z-scheme photocatalytic mechanism and the plausible pathway of BP-A degradation were proposed comprehensively. The presence and role of radical and non-radical pathways in the decontamination process of BP-A over ZACFO/PMS/UV system was confirmed. [Display omitted] •A novel Z-scheme, ZnO-based photocatalyst (ZACFO) was prepared to activate PMS.•Excellent synergistic effect was found between PMS and the photocatalyst on BP-A degradation.•The ensuing Z-scheme heterojunction mechanism was explained in detail.•BP-A elimination over ZACFO/PMS/UV occurred by both radical and non-radical pathways.•The ZACFO/PMS/UV system showed high reuse potential in BP-A elimination.
ISSN:0301-4797
1095-8630
DOI:10.1016/j.jenvman.2022.115851