Issue 9, 2024

Revealing the importance of non-radical mechanisms in the degradation of sulfamethazine by Lewis acid-etched Co@MXene-activated peroxyacetic acid

Abstract

The activation of peracetic acid (PAA) based advanced oxidation processes (AOPs) has emerged as a research hotspot in eliminating organic pollutants. Here, Co@MXene etched with a Lewis acid was employed to activate PAA for the treatment of sulfamethazine (SMT) polluted water. The technology had efficient degradation performance for SMT, achieving 82.1% degradation within 8 minutes. Reactive species competition experiments, chemical probe experiments and electron spin resonance (ESR) analyses were used to confirm the important role of the non-radical pathway. Density functional theory calculations were conducted, revealing that the activation of PAA led to the generation of acetyl peroxyl radicals with an activation energy barrier, and particularly highlighting the significant contribution of high-valent metals to the degradation of SMT. Electrochemical tests showed that PAA formed a substable complex with Co@MXene to directly degrade SMT. The overall pathway was proposed and the activation status of PAA in surface water was assessed. Ultimately, the aggregate results from this study highlight the impressive activation mechanisms of PAA to further deepen the understanding of PAA-based AOPs.

Graphical abstract: Revealing the importance of non-radical mechanisms in the degradation of sulfamethazine by Lewis acid-etched Co@MXene-activated peroxyacetic acid

Supplementary files

Article information

Article type
Paper
Submitted
22 may 2024
Accepted
17 iyl 2024
First published
18 iyl 2024

Environ. Sci.: Nano, 2024,11, 3918-3930

Revealing the importance of non-radical mechanisms in the degradation of sulfamethazine by Lewis acid-etched Co@MXene-activated peroxyacetic acid

D. Liu, S. Zhang, Z. Zou, Z. Fang, P. Chen, Z. Yu, X. Zhang, Z. Li, Z. Lin, W. Lv and G. Liu, Environ. Sci.: Nano, 2024, 11, 3918 DOI: 10.1039/D4EN00453A

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