Heterogeneous Fenton-assisted antibiotic removal from wastewater: Effect of FeWO4 nanomaterial morphology across four Fenton processes

Heterogeneous Fenton-assisted antibiotic removal from wastewater: Effect of FeWO4 nanomaterial morphology across four Fenton processes

The growing incidence of antibiotics in water presents considerable environmental and health challenges, including antibiotic resistance and genotoxicity. This research focuses on synthesizing FeWO4 nanomaterials in three distinct morphologies- nanoparticles (NPs), nanorods (NRs), and nanofibers (NF...

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Bibliographic Details
Main Authors: Akser Alam Siddiqua Maya, Parul Akhtar, Md. Arif Hossen, Md Jahangir Alam, Hamad AlMohamadi, Yunus Ahmed
Format: Article
Language:English
Published: Elsevier 2025-12-01
Series:Water Research X
Subjects:
Ciprofloxacin
FeWO4
Nanomaterials
Fenton
Photo-Fenton (PF)
Sono-Fenton (SF)
Online Access:http://www.sciencedirect.com/science/article/pii/S2589914725000532
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Summary:The growing incidence of antibiotics in water presents considerable environmental and health challenges, including antibiotic resistance and genotoxicity. This research focuses on synthesizing FeWO4 nanomaterials in three distinct morphologies- nanoparticles (NPs), nanorods (NRs), and nanofibers (NFs) via a facile hydrothermal process. These nanomaterials were evaluated as heterogeneous catalysts in four different Fenton-based advanced oxidation processes (AOPs): conventional Fenton (CF), photo-Fenton (PF), sono-Fenton (SF), and sono-photo-Fenton (SPF). The performance of each morphological structure of FeWO4 nanomaterials was systematically assessed for the degradation of ciprofloxacin (CIP), a common antibiotic pollutant found in wastewater. The synthesized nanomaterials were characterized using UV–Vis DRS, FESEM, XRD, EIS, and CV. The physicochemical analysis confirmed the differences in optical and catalytic properties of synthesized FeWO4 nanomaterials. Among the four Fenton processes, photo-Fenton and sono-photo-Fenton processes demonstrated higher CIP degradation efficiency compared to conventional Fenton and sono-Fenton processes. However, the SPF process demonstrated high efficiency in removing nearly 99% of ciprofloxacin (CIP) from aqueous solution, using a low dose of FeWO₄ NPs (100 mg/L) and H₂O₂ (2.0 mM) over a 40-minute treatment period at neutral pH. The nanoparticle form of FeWO4 exhibited outstanding performance compared to the other two morphologies. The groundbreaking discovery emphasizes the immense potential of FeWO4 as versatile and efficient nanomaterials in Fenton-based AOP processes for mitigating antibiotics in aquatic environments.
ISSN:2589-9147

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