Visible‐Light‐Driven Photocatalytic Degradation of Amoxicillin Using FeMoO2/Chitosan/CdO Nanocomposite for Sustainable Water Treatment

ABSTRACT This work focused on the photocatalytic degradation of amoxicillin using the recently developed FeMoO4/chitosan/CdO nanocomposite (FeMoO4/CS/CdO). The most typical antibiotic, amoxicillin, raises environmental threats due to its persistence in aquatic environments. Amoxicillin, extensively...

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Published in	Polymers for advanced technologies Vol. 36; no. 2
Main Authors	Arul, V., Radhakrishnan, K., Kasthuri, N., Vadivu, D. Senthil, Kumar, J. Vinoth, Nivetha, M. Sherlin, Mythili, R., Devanesan, Sandhanasamy
Format	Journal Article
Language	English
Published	Chichester, UK John Wiley & Sons, Ltd 01.02.2025 Wiley Subscription Services, Inc
Subjects	Amoxicillin Antibiotics Aquatic environment Carrier recombination Chitosan Current carriers Diffraction patterns environmental pollation Infrared spectra Iron constituents Nanocomposites Nanoparticles Photocatalysis photocatalytic degradation Photodegradation Ultraviolet spectra wastewater treatment Water purification Water treatment
Online Access	Get full text
ISSN	1042-7147 1099-1581
DOI	10.1002/pat.70097

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Abstract	ABSTRACT This work focused on the photocatalytic degradation of amoxicillin using the recently developed FeMoO4/chitosan/CdO nanocomposite (FeMoO4/CS/CdO). The most typical antibiotic, amoxicillin, raises environmental threats due to its persistence in aquatic environments. Amoxicillin, extensively utilized as an antibiotic, has environmental concerns due to its existence in aquatic environments. The nanocomposite, comprising iron molybdate (FeMoO4), chitosan (CS), and cadmium oxide (CdO) nanoparticles, was synthesized to couple the distinct properties of each constituent, enhancing its overall functionality. FCC‐NC was characterized by the presence of clearly defined peaks in the infrared (IR) spectra, ultraviolet–visible (UV–Vis) spectra, and x‐ray diffraction (XRD) patterns. We studied the photocatalytic degradation of amoxicillin (AXM) using the FeMoO4/CS/CdO nanocomposite. Under ideal conditions (40 mg catalyst dosage and 10 mg/L initial AXM concentration), we achieved a degradation efficiency of roughly 90.8%, following pseudo‐first‐order kinetics with a rate constant of 0.0222 min−1. The immobilized FeMoO2/chitosan/CdO nanocomposite was more photocatalytically active than bare FeMoO2 because it exhibited less charge carrier recombination, according to EIS and PL analysis. Hence, the FeMoO4/chitosan/CdO nanocomposite has a vast opportunity in the long‐term mechanism of eradicating pharmaceutical pollutants in water. This study shows that the obtained results may be useful in the field of environmental cleanliness and water purification technologies.
AbstractList	This work focused on the photocatalytic degradation of amoxicillin using the recently developed FeMoO4/chitosan/CdO nanocomposite (FeMoO4/CS/CdO). The most typical antibiotic, amoxicillin, raises environmental threats due to its persistence in aquatic environments. Amoxicillin, extensively utilized as an antibiotic, has environmental concerns due to its existence in aquatic environments. The nanocomposite, comprising iron molybdate (FeMoO4), chitosan (CS), and cadmium oxide (CdO) nanoparticles, was synthesized to couple the distinct properties of each constituent, enhancing its overall functionality. FCC‐NC was characterized by the presence of clearly defined peaks in the infrared (IR) spectra, ultraviolet–visible (UV–Vis) spectra, and x‐ray diffraction (XRD) patterns. We studied the photocatalytic degradation of amoxicillin (AXM) using the FeMoO4/CS/CdO nanocomposite. Under ideal conditions (40 mg catalyst dosage and 10 mg/L initial AXM concentration), we achieved a degradation efficiency of roughly 90.8%, following pseudo‐first‐order kinetics with a rate constant of 0.0222 min−1. The immobilized FeMoO2/chitosan/CdO nanocomposite was more photocatalytically active than bare FeMoO2 because it exhibited less charge carrier recombination, according to EIS and PL analysis. Hence, the FeMoO4/chitosan/CdO nanocomposite has a vast opportunity in the long‐term mechanism of eradicating pharmaceutical pollutants in water. This study shows that the obtained results may be useful in the field of environmental cleanliness and water purification technologies. ABSTRACT This work focused on the photocatalytic degradation of amoxicillin using the recently developed FeMoO4/chitosan/CdO nanocomposite (FeMoO4/CS/CdO). The most typical antibiotic, amoxicillin, raises environmental threats due to its persistence in aquatic environments. Amoxicillin, extensively utilized as an antibiotic, has environmental concerns due to its existence in aquatic environments. The nanocomposite, comprising iron molybdate (FeMoO4), chitosan (CS), and cadmium oxide (CdO) nanoparticles, was synthesized to couple the distinct properties of each constituent, enhancing its overall functionality. FCC‐NC was characterized by the presence of clearly defined peaks in the infrared (IR) spectra, ultraviolet–visible (UV–Vis) spectra, and x‐ray diffraction (XRD) patterns. We studied the photocatalytic degradation of amoxicillin (AXM) using the FeMoO4/CS/CdO nanocomposite. Under ideal conditions (40 mg catalyst dosage and 10 mg/L initial AXM concentration), we achieved a degradation efficiency of roughly 90.8%, following pseudo‐first‐order kinetics with a rate constant of 0.0222 min−1. The immobilized FeMoO2/chitosan/CdO nanocomposite was more photocatalytically active than bare FeMoO2 because it exhibited less charge carrier recombination, according to EIS and PL analysis. Hence, the FeMoO4/chitosan/CdO nanocomposite has a vast opportunity in the long‐term mechanism of eradicating pharmaceutical pollutants in water. This study shows that the obtained results may be useful in the field of environmental cleanliness and water purification technologies.
Author	Radhakrishnan, K. Arul, V. Kasthuri, N. Mythili, R. Vadivu, D. Senthil Nivetha, M. Sherlin Kumar, J. Vinoth Devanesan, Sandhanasamy
Author_xml	– sequence: 1 givenname: V. surname: Arul fullname: Arul, V. organization: Sri Eshwar College of Engineering (Autonomous) – sequence: 2 givenname: K. orcidid: 0000-0002-8006-1684 surname: Radhakrishnan fullname: Radhakrishnan, K. email: raddhakrishnan21@gmail.com organization: Karpagam Academy of Higher Education – sequence: 3 givenname: N. surname: Kasthuri fullname: Kasthuri, N. organization: Karpagam Institute of Technology – sequence: 4 givenname: D. Senthil surname: Vadivu fullname: Vadivu, D. Senthil organization: Sree Saraswathi Thyagaraja College – sequence: 5 givenname: J. Vinoth orcidid: 0000-0003-2916-6170 surname: Kumar fullname: Kumar, J. Vinoth email: drjvinoth@gmail.com organization: Chennai Institute of Technology – sequence: 6 givenname: M. Sherlin orcidid: 0009-0008-6989-5128 surname: Nivetha fullname: Nivetha, M. Sherlin organization: Kyung Hee University – sequence: 7 givenname: R. surname: Mythili fullname: Mythili, R. organization: Saveetha Dental College and Hospital, Saveetha Institute of Medical and Technical Sciences, Saveetha University – sequence: 8 givenname: Sandhanasamy surname: Devanesan fullname: Devanesan, Sandhanasamy organization: College of Science, King Saud University
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Snippet	ABSTRACT This work focused on the photocatalytic degradation of amoxicillin using the recently developed FeMoO4/chitosan/CdO nanocomposite (FeMoO4/CS/CdO). The... This work focused on the photocatalytic degradation of amoxicillin using the recently developed FeMoO4/chitosan/CdO nanocomposite (FeMoO4/CS/CdO). The most...
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SubjectTerms	Amoxicillin Antibiotics Aquatic environment Carrier recombination Chitosan Current carriers Diffraction patterns environmental pollation Infrared spectra Iron constituents Nanocomposites Nanoparticles Photocatalysis photocatalytic degradation Photodegradation Ultraviolet spectra wastewater treatment Water purification Water treatment
Title	Visible‐Light‐Driven Photocatalytic Degradation of Amoxicillin Using FeMoO2/Chitosan/CdO Nanocomposite for Sustainable Water Treatment
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