Highly efficient degradation and detoxification of antibiotics over C–Dots/siderite heteroaggregates in photo-Fenton systems: The crucial role of C–Dots

[Display omitted] •Mimetics of C–dots/siderite heteroaggregates are developed as photo–Fenton catalysts.•CSI heteroaggregates exhibit a broad applicability for trace tetracycline degradation.•Toxicity of degradation intermediates has been evaluated in a safe threshold. The substantial presence of an...

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Bibliographic Details
Published in:Separation and purification technology 2024-12, Vol.349, p.127912, Article 127912
Main Authors: Xu, Yu–Hang, Long, Hao–Ran, Fang, Han–Liang, Wei, Lu–Ying, Cai, Feng–Ying, Rensing, Christopher, Zhong, Zhou, Lü, Jian
Format: Article
Language:English
Subjects:
Carbon quantum dot
Catalytic degradation
Siderite
Tetracycline
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Summary:[Display omitted] •Mimetics of C–dots/siderite heteroaggregates are developed as photo–Fenton catalysts.•CSI heteroaggregates exhibit a broad applicability for trace tetracycline degradation.•Toxicity of degradation intermediates has been evaluated in a safe threshold. The substantial presence of antibiotics in aquatic environments remains as a critical environmental issue that needs to be urgently addressed. In this study, mimetics of C–Dots/siderite heteroaggregates (CSI) were studied in a visible-light-responsive Fenton system as a platform for the degradation of antibiotics in contaminated water. By virtue of the excellent electron transfer of C–Dots, the sustained conversion cycles of Fe(II) → Fe(III) → Fe(II) in CSI were greatly accelerated, and meanwhile the H2O2 utilization was enhanced. The optimized CSI–3 nanocomposite displayed a prominent degradation efficiency towards a series of tetracycline analogs at ppb levels. Density functional theory (DFT) calculations indicated the excellent photo-Fenton catalytic performance of CSI originated from the increased d-band center and electron density, which considerably improves the utilization of H2O2. Both experimental and theoretical studies revealed that the correlated toxicity of degradation intermediates was significantly decreased. Additionally, a continuous flow device integrating the CSI photo-Fenton system maintained a high degradation efficiency after long-term treatment of simulated chlortetracycline wastewater. The presented work thereby confirms a spontaneous remediation process for the decontamination and detoxification of persistent organic pollutants under the action of heteroaggregates formed by engineered nanoparticles and natural minerals.
ISSN:1383-5866
DOI:10.1016/j.seppur.2024.127912