离子印迹吸附分离研究进展

Li Chen, Jingwen Dai, Bo Hu, Jixiang Wang, Yilin Wu, Jiangdong Dai, Minjia Meng, Chunxiang Li, Yongsheng Yan
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引用次数: 20

摘要

印迹技术在分子和离子的选择性识别方面得到了广泛的研究。然而,很少有人关注离子印迹技术的最新进展。离子及其类似物都带电荷,通常具有相似的物理和化学性质,但官能团比分子少。离子的电荷、大小和形状的细微差别决定了金属配体配合物和印迹材料的结构活性。本文综述了印迹材料在配位和聚合阶段各组分之间的内在联系以及印迹材料的亲和力和选择性。阐述了多模板定向离子印迹、双模板对接定向离子印迹和纳米复合离子印迹膜等先进印迹途径。计算模拟强调了功能单体,结合机制和选择性的预测。提出了多种离子印迹膜的防污增强策略,以缓解处理体积与时间之间的权衡关系。这将为离子印迹技术的探索提供新的视角,激发离子分离与纯化领域的更多创造性突破。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Recent Progresses on the Adsorption and Separation of Ions by Imprinting Routes
Imprinting techniques have been investigated extensively for the selective recognition of molecules and ions. However, few reviews focused on the state-of-the-art developments in ion imprinting technique. Ions and their analogs have a charge and usually similar physical and chemical properties, but less functional groups than molecules. The slight differences in charges, sizes and shapes of ions determine the structure–activity of metal–ligand complexes and imprinted materials. In this review, we focused on the internal connections between each component at coordination and polymerization stages with the affinity and selectivity of the imprinted materials. Advanced imprinting routes such as multiple-template, dual-template docking oriented ionic imprinting and nanocomposite ion imprinted membranes were elaborated. Computational simulation was highlighted for the prediction of functional monomers, binding mechanisms and selectivity. Multiple antifouling enhanced strategies for ion imprinted membranes were put forward to alleviate the trade-off relationship between treated volume and time. The review should provide researchers with new perspectives to explore ion imprinting technology and stimulate more creative breakthroughs in ion separation and purification fields.
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