Advanced Hybrid Molecular Imprinted Polymers for Antibiotics Remediation from Wastewater

IF 6.2 3区 工程技术 Q1 ENGINEERING, CHEMICAL ChemBioEng Reviews Pub Date : 2024-03-22 DOI:10.1002/cben.202300057
Dr. Fatima Mumtaz, Muhammad Atif, Dr. Farah Naz, Dr. Baosong Li, Dr. Kean Wang, Dr. Maryam Rashed AlShehhi
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Abstract

Increasing contamination of water bodies with antibiotics has necessitated the development of novel mitigation methods. Many studies have applied adsorption and photocatalytic processes using different nanoparticles, metal-organic frameworks, etc., as sorbents and photocatalysts for antibiotics removal. Among these materials, the development of molecular imprinted polymers (MIPs) is desirable owing to their low cost, structural predictability, detection at deficient concentrations, and versatile applicability. These attributes further encouraged researchers to fabricate hybrid MIP-based materials to abate antibiotic contamination in wastewater. This review summarizes recent studies that deal with conventional and hybrid MIPs such as MIPs-hybrid carbon nanomaterials, magnetic nanomaterials, advanced MIP-based sensors, and photocatalytic materials MIPs for synergic adsorption/separation of antibiotic residuals from wastewater. Economic perspectives of the emerging hybrid materials are also discussed. Some limitations, research gaps, and future potentials for further advancement and efficient remediation results are outlined.

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用于废水中抗生素修复的先进混合分子印迹聚合物
抗生素对水体的污染日益严重,因此有必要开发新型的缓解方法。许多研究采用不同的纳米颗粒、金属有机框架等作为吸附剂和光催化剂,利用吸附和光催化过程去除抗生素。在这些材料中,分子印迹聚合物(MIPs)因其低成本、结构可预测性、低浓度检测和多用途适用性而备受青睐。这些特性进一步鼓励研究人员制造基于 MIP 的混合材料,以减少废水中的抗生素污染。本综述总结了近期有关传统和混合 MIP 的研究,如 MIP 混合碳纳米材料、磁性纳米材料、基于 MIP 的先进传感器,以及用于协同吸附/分离废水中残留抗生素的光催化材料 MIP。此外,还讨论了新兴混合材料的经济前景。此外,还概述了一些局限性、研究差距以及未来进一步发展和取得高效补救成果的潜力。
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来源期刊
ChemBioEng Reviews
ChemBioEng Reviews Biochemistry, Genetics and Molecular Biology-Biochemistry
CiteScore
7.90
自引率
2.10%
发文量
45
期刊介绍: Launched in 2014, ChemBioEng Reviews is aimed to become a top-ranking journal publishing review articles offering information on significant developments and provide fundamental knowledge of important topics in the fields of chemical engineering and biotechnology. The journal supports academics and researchers in need for concise, easy to access information on specific topics. The articles cover all fields of (bio-) chemical engineering and technology, e.g.,
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Cover Picture: ChemBioEng Reviews 5/2024 Masthead: ChemBioEng Reviews 5/2024 Table of Contents: ChemBioEng Reviews 5/2024 Anaerobic Digestion for Textile Waste Treatment and Valorization Glycerol as a Feedstock for Chemical Synthesis
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