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Well-dispersed copper and molybdenum co-doped g-C3N4 as an excellent persulfate activator for highly efficient removal of bisphenol a in wastewater

SEPARATION AND PURIFICATION TECHNOLOGY [2024]
Yuhang Zhou, Jiafeng Ding, Wen Yan, Yunjuan Meng, Bingzhi Yu, Teer Wen, Yao Yue, Yuchi Zhong, Hangjun Zhang
ABSTRACT

Degradation of endocrine disrupting compounds by optimizing advanced oxidation processes is highly feasible, but remains a daunting challenge. In this work, a novel copper and molybdenum co-doped g -C 3 N 4 (Cu/Mo@CN) were successfully synthesized via a simple dip-calcination approach, of which highly dispersed Cu and Mo atom sites were doped in the ring of g -C 3 N 4 . The Cu/Mo@CN catalysts were characterized by XRD, SEM, TEM, XPS, UV–vis DRS analyses, etc. The optimized system of Cu 1 /Mo 3 @CN catalyst in the visible light-persulfate oxidation (Vis + PS + Cu 1 /Mo 3 @CN system) had high photocatalytic activity to remove 97.2 % of bisphenol A (BPA, 5 mg/L) within 60 min. Compared to pure g -C 3 N 4 , Cu/Mo@CN has better visible-light (Vis) response function and narrower band gap (2.58 eV), which are easier to get excited by Vis illuminate. The results showed that reactive oxygen species of SO 4 • − , • OH and • O 2 − could be stably produced to contribute to the BPA degradation in Vis + PS + Cu/Mo@CN systems. Meanwhile, the Cu and Mo elements co-doped in g -C 3 N 4 can also effectively activate PS to promote the production of reactive oxygen substances. In addition, the continuous production of photoelectrons enhanced the cycling of Cu 2+ /Mo 6+ and Cu + /Mo 4+ , which could be further improved the removal efficiency of Vis + PS + Cu/Mo@CN towards BPA. The degradation mechanism of BPA were proposed according to the identification of intermediate products and DFT calculation. Overall, this study provides a viable pathway for BPA abatement in actual wastewater treatment applications.

MATERIALS

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