Dual metal ions/BNQDs boost PMS activation over copper tungstate photocatalyst for antibiotic removal: Intermediate, toxicity assessment and mechanism

•The CW/4Co/2BNQDs/PMS/Vis system reached a TC elimination of 94.8% within 30 min.•The Cu2+/Cu+ and Co2+/Co3+ dual redox cycles were remarkably boosted by introducing the BNQDs.•BNQDs acted as efficient hole extractors to hinder the recombination of the phoinduced electron-hole pairs.•Degradation pa...

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Bibliographic Details
Published in:Journal of materials science & technology 2024-01, Vol.170, p.11-24
Main Authors: Chen, Ruyao, Zhang, Haiyue, Dong, Yuming, Shi, Haifeng
Format: Article
Language:English
Subjects:
BN quantum dots
Dual redox cycles
Peroxymonosulfate
Photocatalysis
Toxicity assessment
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Summary:•The CW/4Co/2BNQDs/PMS/Vis system reached a TC elimination of 94.8% within 30 min.•The Cu2+/Cu+ and Co2+/Co3+ dual redox cycles were remarkably boosted by introducing the BNQDs.•BNQDs acted as efficient hole extractors to hinder the recombination of the phoinduced electron-hole pairs.•Degradation pathways and products toxicity were discussed in detail. In the metal-based peroxymonosulfate (PMS) activation process, the sluggish surface redox cycle of metal ions generally hampered the efficiency of PMS activation for pollutant removal. Herein, Co-doped CuWO4/BN quantum dots (CW/Co/BNQDs) photocatalysts were developed to realize Cu2+/Cu+ and Co2+/Co3+ dual ions redox cycles for PMS activation, which would facilitate the tetracycline (TC) removal. CW/4Co/2BNQDs could degrade 94.8% TC within 30 min in PMS/Vis system, and the apparent rate constant of CW/4Co/2BNQDs was 2.7 times and 1.2 times higher than those of CW and CW/4Co, respectively. The improved TC degradation performance could be attributed to the synergetic effect between BNQDs and dual redox cycles. X-ray photoelectron spectroscopy (XPS) spectra of samples before and after the reaction demonstrated that BNQDs were beneficial for accelerating the Cu2+/Cu+ and Co2+/Co3+ redox cycles in CW/4Co/2BNQDs, further boosting the activation of PMS in TC degradation. Experiments of different radical scavengers revealed that the SO4·−/·OH/h+/1O2 reactive species participated in the PMS activation for the TC degradation process. The possible TC degradation pathway and intermediate toxicity were detailed investigated. In addition, CW/4Co/2BNQDs exhibited outstanding photocatalytic activity over five consecutive cycles, which illustrated that it was supposed to be a reliable PMS activator over antibiotic elimination for practical application. And this work shed new light on constructing dual redox cycles for efficient PMS activation. [Display omitted]
ISSN:1005-0302
DOI:10.1016/j.jmst.2023.07.005