Molecularly imprinted polymers @ metal and covalent organic frameworks: From synthesis to application in analytical chemistry

IF 11.8 1区化学 Q1 CHEMISTRY, ANALYTICAL

Trends in Analytical Chemistry Pub Date : 2024-08-13 DOI:10.1016/j.trac.2024.117906

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Abstract

Since their introduction in the 1970s, molecularly imprinted polymers (MIPs) have been greatly applied in analytical chemistry as materials that enhance the selectivity of analytical methods. MIPs are mostly explored in sample preparation methods, as well as electrochemical and chemical sensors. In recent years, the preparation of these materials has been performed on the surface of metal and covalent organic frameworks (MIPs@MOFs and COFs). This initiative is mostly geared to improve the performance of MIPs further. The present paper provides a critical review of the synthesis and applications of MIPs@MOFs and COFs in environmental, biological, and food analysis while also highlighting the major gaps and challenges to be considered for future explorations. The findings of this review indicate that various synthetic routes are explored for the production of these materials. The analytical aspects are more centred on selective sample preparation tools such as solid-phase extraction and solid-phase microextraction, as well as the applications in sensor technology for the detection of various compounds in complex matrices.

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分子印迹聚合物 @ 金属和共价有机框架：从合成到在分析化学中的应用

自 20 世纪 70 年代问世以来，分子印迹聚合物（MIP）作为一种可提高分析方法选择性的材料，在分析化学中得到了广泛应用。分子印迹聚合物主要用于样品制备方法以及电化学和化学传感器。近年来，这些材料的制备已在金属和共价有机框架（MIPs@MOFs 和 COFs）表面进行。这一举措主要是为了进一步提高 MIPs 的性能。本文对 MIPs@MOFs 和 COFs 的合成及其在环境、生物和食品分析中的应用进行了深入评述，同时还强调了未来探索中需要考虑的主要差距和挑战。综述结果表明，生产这些材料的合成路线多种多样。分析方面则更多地集中在固相萃取和固相微萃取等选择性样品制备工具，以及传感器技术在检测复杂基质中各种化合物方面的应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Trends in Analytical Chemistry 化学-分析化学

CiteScore

20.00

自引率

4.60%

发文量

257

审稿时长

3.4 months

期刊介绍： TrAC publishes succinct and critical overviews of recent advancements in analytical chemistry, designed to assist analytical chemists and other users of analytical techniques. These reviews offer excellent, up-to-date, and timely coverage of various topics within analytical chemistry. Encompassing areas such as analytical instrumentation, biomedical analysis, biomolecular analysis, biosensors, chemical analysis, chemometrics, clinical chemistry, drug discovery, environmental analysis and monitoring, food analysis, forensic science, laboratory automation, materials science, metabolomics, pesticide-residue analysis, pharmaceutical analysis, proteomics, surface science, and water analysis and monitoring, these critical reviews provide comprehensive insights for practitioners in the field.