Recent advances in the removal of emerging pollutant tetracycline using green nanomaterials: An eco-friendly mitigation approach

Antibiotics have emerged as significant environmental pollutants due to their environmental persistence and detrimental effects on non-targeted species. Among these, tetracycline is a prevalent organic pollutant known for its adverse ecological and health impacts. The release of tetracycline and its...

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Published in	International journal of environmental science and technology (Tehran) Vol. 22; no. 6; pp. 5129 - 5142
Main Authors	Venkatesan, L. S., Sathishkumar, P.
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.03.2025
Subjects	adsorption Aquatic Pollution carcinogenicity Earth and Environmental Science ecosystems Ecotoxicology Environment Environmental Chemistry environmental fate Environmental Science and Engineering metabolites nanomaterials photocatalysis pollutants pollution Review Soil Science & Conservation species teratogenicity tetracycline Waste Water Technology Water Management Water Pollution Control water treatment Ecofriendly Water pollution Pollutants degradation Green nanomaterials Pharmaceutical active compounds Tetracycline
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Abstract	Antibiotics have emerged as significant environmental pollutants due to their environmental persistence and detrimental effects on non-targeted species. Among these, tetracycline is a prevalent organic pollutant known for its adverse ecological and health impacts. The release of tetracycline and its metabolites into the environment has been associated with potential carcinogenic, teratogenic, and hormonal effects in humans. Numerous research groups have been explored eco-friendly and effective methods for removing or detoxifying the tetracycline and its metabolite from water compartments using green nanomaterials. Despite their potential, till date there is currently no comprehensive review on this subject. This review aims to highlights the existing efficient green nanomaterials-based treatment techniques for tetracycline removal. Green-based nanomaterials such as Bio-CdS, CeO 2 NPs, FeNPs, FR-MoS 2, nFe 3 O 4, NiFeNPs, rGO/MnNPs, TiO 2 /AuNPs, ZnO/SnO 2 , ZnO-CNFTD and ZrO 2 NPs have demonstrated remarkable efficacy in tetracycline removal through various mechanisms like adsorption, photocatalytic degradation, and Fenton-like reactions. Addressing these challenges will pave the way for the practical application of nanotechnology-based solutions in environmental pollution management and support sustainable approaches to water treatment and ecosystem protection.
AbstractList	Antibiotics have emerged as significant environmental pollutants due to their environmental persistence and detrimental effects on non-targeted species. Among these, tetracycline is a prevalent organic pollutant known for its adverse ecological and health impacts. The release of tetracycline and its metabolites into the environment has been associated with potential carcinogenic, teratogenic, and hormonal effects in humans. Numerous research groups have been explored eco-friendly and effective methods for removing or detoxifying the tetracycline and its metabolite from water compartments using green nanomaterials. Despite their potential, till date there is currently no comprehensive review on this subject. This review aims to highlights the existing efficient green nanomaterials-based treatment techniques for tetracycline removal. Green-based nanomaterials such as Bio-CdS, CeO 2 NPs, FeNPs, FR-MoS 2, nFe 3 O 4, NiFeNPs, rGO/MnNPs, TiO 2 /AuNPs, ZnO/SnO 2 , ZnO-CNFTD and ZrO 2 NPs have demonstrated remarkable efficacy in tetracycline removal through various mechanisms like adsorption, photocatalytic degradation, and Fenton-like reactions. Addressing these challenges will pave the way for the practical application of nanotechnology-based solutions in environmental pollution management and support sustainable approaches to water treatment and ecosystem protection. Antibiotics have emerged as significant environmental pollutants due to their environmental persistence and detrimental effects on non-targeted species. Among these, tetracycline is a prevalent organic pollutant known for its adverse ecological and health impacts. The release of tetracycline and its metabolites into the environment has been associated with potential carcinogenic, teratogenic, and hormonal effects in humans. Numerous research groups have been explored eco-friendly and effective methods for removing or detoxifying the tetracycline and its metabolite from water compartments using green nanomaterials. Despite their potential, till date there is currently no comprehensive review on this subject. This review aims to highlights the existing efficient green nanomaterials-based treatment techniques for tetracycline removal. Green-based nanomaterials such as Bio-CdS, CeO₂NPs, FeNPs, FR-MoS₂, nFe₃O₄, NiFeNPs, rGO/MnNPs, TiO₂/AuNPs, ZnO/SnO₂, ZnO-CNFTD and ZrO₂NPs have demonstrated remarkable efficacy in tetracycline removal through various mechanisms like adsorption, photocatalytic degradation, and Fenton-like reactions. Addressing these challenges will pave the way for the practical application of nanotechnology-based solutions in environmental pollution management and support sustainable approaches to water treatment and ecosystem protection.
Author	Sathishkumar, P. Venkatesan, L. S.
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SubjectTerms	adsorption Aquatic Pollution carcinogenicity Earth and Environmental Science ecosystems Ecotoxicology Environment Environmental Chemistry environmental fate Environmental Science and Engineering metabolites nanomaterials photocatalysis pollutants pollution Review Soil Science & Conservation species teratogenicity tetracycline Waste Water Technology Water Management Water Pollution Control water treatment
Title	Recent advances in the removal of emerging pollutant tetracycline using green nanomaterials: An eco-friendly mitigation approach
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