用于手性化合物电化学分析的分子印迹技术的最新进展

Sevda Hasanova , Abdellatif Ait Lahcen , Erhan Zor
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摘要

分子印迹技术已成为制造高选择性识别元件(即分子印迹聚合物 (MIP))的有力工具。这些合成聚合物具有量身定制的结合位点,对目标分子具有高亲和力和特异性,是各种分析应用(包括检测和分离手性化合物)的理想选择。本综述全面概述了用于手性分析的 MIPs 在设计、合成和应用方面的最新进展。其中讨论了使用新型单体、创新聚合技术和先进表征方法方面的主要进展。此外,还探讨了 MIP 与金属有机框架 (MOF) 和纳米材料等尖端材料的整合,突出了它们对提高传感器性能的影响。我们这篇综述的新颖之处在于,它深入探讨了基于 MIP 的电化学传感器的最新进展,这些传感器在传感器微型化、快速响应时间和便携性方面都有显著改善。该领域所取得的进展标志着在开发用于复杂基质中手性分析的高性价比、可持续传感设备方面取得了重大飞跃。此外,本综述还对各种方法的利弊进行了批判性评估,为该领域的未来研究提供了全面指导。所讨论的技术在药品质量控制、临床诊断和环境监测方面具有很强的应用潜力。本综述旨在为 MIPs 研究人员和从业人员提供有价值的见解,帮助他们了解手性化合物分析技术的现状和未来发展方向。
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Recent advances in molecular imprinting techniques for the electrochemical analysis of chiral compounds
Molecular imprinting technology has emerged as a powerful tool for creating highly selective recognition elements, known as molecularly imprinted polymers (MIPs). These synthetic polymers possess tailor-made binding sites with high affinity and specificity for target molecules, making them ideal for various analytical applications, including detecting and separating chiral compounds. This review provides a comprehensive overview of recent advances in the design, synthesis, and application of MIPs for chiral analysis. Key developments in using novel monomers, innovative polymerization techniques, and advanced characterization methods are discussed. Additionally, integrating MIPs with cutting-edge materials such as metal-organic frameworks (MOFs) and nanomaterials is explored, highlighting their impact on improving sensor performance. The novelty of our review lies in its profound discussion of the recent advancement of electrochemical sensors-based MIPs that exhibit significant improvements in sensor miniaturization, rapid response times, and portability. The progress made in this fieldmarks a significant leap forward in the development of cost-effective, sustainable sensing devices for chiral analysis in complex matrices. Additionally, this review critically evaluates the pros and cons of various approaches, providing a comprehensive guide to future research in the field. The discussed techniques have strong potential for application in pharmaceutical quality control, clinical diagnosis, and environmental monitoring. This review aims to provide researchers and practitioners in MIPs with valuable insights into the current state and future directions of this technology for chiral compound analysis.
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