A novel magnetic AC/bentonite/Fe3O4/CeO2 nanocomposite catalyst for photocatalytic degradation of persistent chlorinated pesticides in water
Saad S. M. Hassan, Mahmoud Abdelwahab Fathy, Eslam I. El-Aswar, Sabah S. Ibrahim, A. M. Ismael, M. M. Yehia, M. M. Rashad

TL;DR
A new magnetic nanocomposite catalyst efficiently degrades various chlorinated pesticides in water using UV light.
Contribution
A novel AC/Bentonite/Fe3O4/CeO2 nanocomposite is developed for rapid and efficient photocatalytic degradation of persistent chlorinated pesticides.
Findings
The nanocomposite achieved over 90% removal efficiency for several chlorinated pesticides under UV irradiation.
It showed 73.9–86.6% degradation for other persistent organic pollutants.
The catalyst offers advantages like high adsorption, fast kinetics, and magnetic separability.
Abstract
Persistent organic pesticides (POPs), particularly chlorinated pesticides, represent a critical environmental threat due to their chemical stability, bioaccumulation potential, and resistance to conventional water-treatment methods. Herein, a rapid and cost-effective photocatalytic strategy is developed for the degradation of seventeen structurally diverse POPs in water under ultraviolet (UV) irradiation at ambient temperature. A magnetic heterostructured nanocomposite consisting of activated carbon, derived from sugarcane bagasse, and bentonite, coupled with a magnetite/cerium oxide (Fe3O4/CeO2) nanocomposite, is fabricated via a facile ball-milling approach and tested. The material exhibits a strong light absorption, high adsorption capability, high surface activity, and excellent magnetic recoverability. Comprehensive characterization is performed using ultraviolet-visible (UV-vis)…
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Taxonomy
TopicsEnvironmental remediation with nanomaterials · Advanced oxidation water treatment · Advanced Photocatalysis Techniques
