Shah Nasrullah, Shah Muffarih, Rehan Touseef, Khan Abbas, Majeed Noor, Hameed Abdul, Bououdina Mohamed, Abumousa Rasha A, Humayun Muhammad
Department of Chemistry Abdul Wali Khan University Mardan, Mardan, 23200, KP, Pakistan.
Department of Biochemistry Women University Mardan, Mardan, 23200, KP, Pakistan.
Heliyon. 2024 Aug 14;10(16):e36189. doi: 10.1016/j.heliyon.2024.e36189. eCollection 2024 Aug 30.
This review underscores the fundamentals of MIP-CMs and systematically summarizes their synthetic strategies and applications, and potential developments. MIP-CMs are widely acclaimed for their versatility, finding applications in separation, filtration, detection, and trace analysis, as well as serving as scaffolds in a range of analytical, biomedical and industrial contexts. Also characterized by extraordinary selectivity, remarkable sensitivity, and outstanding capability to bind molecules, those membranes are also cost-effective, highly stable, and configurable in terms of recognition and, therefore, inalienable in various application fields. Issues relating to the potential future for the paper are discussed in the last section with the focus on the improvement of resource practical application across different areas. Hence, this review can be seen as a kind of cookbook for the design and fabrication of MIP-CMs with an intention to expand the scope of their application.
本综述强调了分子印迹复合膜(MIP-CMs)的基本原理,系统总结了其合成策略、应用及潜在发展方向。MIP-CMs因其多功能性而广受赞誉,在分离、过滤、检测、痕量分析等方面有应用,还可在一系列分析、生物医学和工业领域中作为支架。这些膜还具有非凡的选择性、显著的灵敏度和出色的分子结合能力,且具有成本效益高、稳定性强以及在识别方面可配置的特点,因此在各种应用领域中不可或缺。最后一部分讨论了与该领域未来潜力相关的问题,重点是跨不同领域资源实际应用的改进。因此,本综述可被视为一本关于MIP-CMs设计与制备的指南,旨在扩大其应用范围。
