Issue 6, 2024, Issue in Progress

Construction of Z-scheme AgCl/BiOCl heterojunction with oxygen vacancies for improved pollutant degradation and bacterial inactivation

Abstract

A facile Z-scheme AgCl/BiOCl heterojunction photocatalyst with oxygen vacancies was fabricated by a water-bath method. The structural, morphological, optical and electronic properties of as-synthesized samples were systematically characterized. The oxygen vacancies were confirmed by EPR, which could optimize the band-gap of the AgCl/BiOCl heterojunction and improve the photo-induced electron transfer. The optimized AgCl/BiOCl heterojunction showed excellent photocatalytic degradation efficiency (82%) for tetracycline (TC). Simultaneously, E. coli was completely inactivated within 60 min due to the AgCl/BiOCl heterojunction. The elevated catalytic activity of the optimal AgCl/BiOCl heterojunction was ascribed to the synergistic effect of the enhanced light absorption and effective photoinduced charge carrier separation and transfer. Moreover, the degradation efficiency of the AgCl/BiOCl heterojunction towards ofloxacin, norfloxacin and Lanasol Red 5B was 73%, 74% and 96%, respectively. The experimental factors for the degradation efficiency of TC were also studied. Furthermore, active species trapping experiments indicated that superoxide radicals (˙O2) were the main reactive species, and the Z-scheme charge transfer mechanism helped to improve the photocatalytic activity.

Graphical abstract: Construction of Z-scheme AgCl/BiOCl heterojunction with oxygen vacancies for improved pollutant degradation and bacterial inactivation

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Article information

Article type
Paper
Submitted
13 Dec 2023
Accepted
16 Jan 2024
First published
26 Jan 2024
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2024,14, 3888-3899

Construction of Z-scheme AgCl/BiOCl heterojunction with oxygen vacancies for improved pollutant degradation and bacterial inactivation

S. Fu, Z. Chu, Z. Huang, X. Dong, J. Bie, Z. Yang, H. Zhu, W. Pu, W. Wu and B. Liu, RSC Adv., 2024, 14, 3888 DOI: 10.1039/D3RA08514G

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