Freshwater represents one of the most precious resources on the planet, so it is fundamental to preserve it. In this work, an innovative sunlight-driven device composed of bismuth oxybromide (BiOBr) grown on a material derived from natural sources, i.e., Lightweight Expanded Clay Aggregates (LECA), is developed to clean surface waters under natural solar light irradiation. For this purpose, the photodegradation of two non-steroidal anti-inflammatory drugs, ibuprofen, and diclofenac, is investigated under varying operative conditions. Laboratory- and real-scale experiments reveal that the fabricated floating BiOBr/LECA photocatalyst fully degrades diclofenac, whereas limited abatement of ibuprofen is observed. Based on the identification of specific transformation products (TPs) during the degradation, this behavior seems to be strongly related to the different structures of the two drugs. In fact, the main TP produced during diclofenac degradation derives from dechlorination and ring condensation: this type of photocatalytic degradation pathway is generally favored over the C─C bonds's cleavage, which is a unique possibility for IBU abatement. Moreover, the potential partial adsorption of these species on the photocatalyst's active sites can cause their deactivation. Finally, reusability tests demonstrate the high stability of the floating composite.
An Innovative Sunlight‐Driven Device for Photocatalytic Drugs Degradation: from laboratory‐ to real‐Scale Application. A First Step Toward Vulnerable Communities / M.G. Galloni, E. Falletta, M. Mahdi, G. Cerrato, A. Giordana, D.C. Boffito, C.L. Bianchi. - In: ADVANCED SUSTAINABLE SYSTEMS. - ISSN 2366-7486. - (2024), pp. 2300565.1-2300565.11. [10.1002/adsu.202300565]
An Innovative Sunlight‐Driven Device for Photocatalytic Drugs Degradation: from laboratory‐ to real‐Scale Application. A First Step Toward Vulnerable Communities
M.G. GalloniPrimo
;E. Falletta
Secondo
;D.C. BoffitoPenultimo
;C.L. BianchiUltimo
2024
Abstract
Freshwater represents one of the most precious resources on the planet, so it is fundamental to preserve it. In this work, an innovative sunlight-driven device composed of bismuth oxybromide (BiOBr) grown on a material derived from natural sources, i.e., Lightweight Expanded Clay Aggregates (LECA), is developed to clean surface waters under natural solar light irradiation. For this purpose, the photodegradation of two non-steroidal anti-inflammatory drugs, ibuprofen, and diclofenac, is investigated under varying operative conditions. Laboratory- and real-scale experiments reveal that the fabricated floating BiOBr/LECA photocatalyst fully degrades diclofenac, whereas limited abatement of ibuprofen is observed. Based on the identification of specific transformation products (TPs) during the degradation, this behavior seems to be strongly related to the different structures of the two drugs. In fact, the main TP produced during diclofenac degradation derives from dechlorination and ring condensation: this type of photocatalytic degradation pathway is generally favored over the C─C bonds's cleavage, which is a unique possibility for IBU abatement. Moreover, the potential partial adsorption of these species on the photocatalyst's active sites can cause their deactivation. Finally, reusability tests demonstrate the high stability of the floating composite.
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Advanced Sustainable Systems - 2024 - Galloni - An Innovative Sunlight‐Driven Device for Photocatalytic Drugs Degradation .pdf
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Manuscript_R1+accepted+clb_mg-dcb_PC.pdf
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