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基于混合模式的高效液相色谱固定相研究进展OA

Research progress on high performance liquid chromatography stationary phases based on mixed mode

中文摘要英文摘要

高效液相色谱(HPLC)是现代分析化学中一种重要的分离分析技术,广泛应用于生物化学、医药和食品等领域.然而,随着样品复杂性的增加,传统单模式色谱难以实现混合物的高效分离.为此,混合模式色谱(MMC)通过整合反相液相色谱(RPLC)、亲水作用色谱(HILIC)及离子交换色谱(IEC)等多种分离机制,结合功能化固定相,实现了对复杂样品的高效分离.本文简要描述了 4 种混合模式的分离机理,详细总结了固定相化学反应类型、填料结构以及新型固定相材料,系统综述了 2020-2024 年基于 RPLC/IEC、RPLC/HILIC、HILIC/IEC 及 RPLC/HILIC/IEC 4 种混合模式的高效液相色谱固定相的应用,并分析了不同模式在复杂样品分离中的优势与局限性.最后,本文展望了混合模式固定相在高效液相色谱应用中所面临的挑战及未来的发展趋势.

High performance liquid chromatography(HPLC)remains a core separation and analytical technique in modern analytical chemistry.Boasting prominent advantages including high quantitative accuracy,rapid analysis speed,strong selectivity,and high sensitivity,it has deeply permeated key fields such as biochemistry,pharmaceutical R&D,food testing,environmental monitoring,and materials science,delivering crucial support for the accurate qualitative and quantitative analysis of target components in complex systems.However,with the increasing complexity of analytical samples in scientific research and industrial production,marked by enhanced matrix interference,an expanded polarity range of target compounds,and widespread coexistence of multiple com-ponents,the limitations of traditional single-mode chromatography(e.g.,reversed-phase liquid chromatography(RPLC),hydrophilic interaction chromatography(HILIC),ion-exchange chro-matography(IEC))have become increasingly pronounced.Specifically,RPLC exhibits insufficient retention and separation capabilities for highly polar compounds,HILIC struggles to handle hy-drophobic substances effectively,and IEC is only applicable to the separation of ionic components.None of these single-mode techniques can meet the demand for efficient and comprehensive separation of complex samples.To address this technical bottleneck,mixed-mode chromatography(MMC)has emerged as a viable solution.Its core innovation lies in integrating two or more separation mechanisms into a single chromatographic column.Through the synergistic effects of functionalized stationary phases,MMC enables efficient separation and accurate analysis of complex systems,thereby significantly expanding the application scope of HPLC.This paper briefly elaborates on the separation mechanisms of four mainstream mixed modes,namely RPLC/IEC,RPLC/HILIC,HILIC/IEC,and RPLC/HILIC/IEC.It also summarizes in detail the key chemical reaction types for stationary phase preparation(e.g.,click chemistry reactions and free radical polymerization re-actions),typical packing structures,as well as the characteristics and preparation strategies of novel functional materials such as porous organic cages(POCs),metal-organic frameworks(MOFs),covalent organic frameworks(COFs),carbon quantum dots(CQDs),microporous organic networks(MONs),and ionic liquids(ILs).Based on the latest research findings from 2020 to 2024,this paper systematically reviews the application cases of the aforementioned four mixed-mode stationary phases in practical scenarios such as traditional Chinese medicine component analysis,environ-mental pollutant detection,food quality control,and pharmaceutical research and development.It also conducts an in-depth analysis of the technical advantages of these four mixed modes,as well as the limitations of some stationary phases,including insufficient stability under extreme pH conditions,complex preparation processes,and high costs for large-scale production.Finally,this paper outlines the core challenges currently confronting mixed-mode stationary phases,including cumbersome synthesis steps,easy degradation and inactivation of functional groups,and difficulties in mobile phase optimization.It further points out that future development trends should focus on simplifying preparation processes,developing environmentally friendly and smart responsive ma-terials,and enhancing the feasibility of large-scale production.The aim is to provide theoretical reference and technical support for the design and development of novel high-efficiency stationary phases,and facilitate greater breakthroughs in mixed-mode chromatography technology in the field of complex sample separation.

李世杰;李振;汤紫霞;吕美;王利涛

滨州医学院,山东 烟台 264003||济宁医学院,山东 济宁 272000济宁医学院,山东 济宁 272000济宁医学院,山东 济宁 272000济宁医学院,山东 济宁 272000滨州医学院,山东 烟台 264003||济宁医学院,山东 济宁 272000

化学化工

高效液相色谱混合模式固定相新型材料综述

high performance liquid chromatography(HPLC)mixed-modestationary phasenew materialsreview

《色谱》 2026 (6)

615-628,14

山东省自然科学基金(ZR2023MH018,ZR2022ME048,ZR2019MB035).Shandong Provincial Natural Science Foundation(Nos.ZR2023MH018,ZR2022ME048,ZR2019MB035).

10.3724/SP.J.1123.2025.06016

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