以聚乙二醇/甲醇为二元致孔剂的新型磺酸甜菜碱型两性离子亲水毛细管整体柱的合成与色谱评价

使用新型二元致孔剂聚乙二醇(PEG)/甲醇,以N,N-二甲基-N-甲基丙烯酰胺基丙基-N,N-二甲基-N-丙烷磺酸内盐(SPP)为单体,季戊四醇三丙烯酸酯(PETA)为交联剂,偶氮二异丁腈(AIBN)为引发剂,通过原位聚合法制备磺酸甜菜碱型两性离子亲水毛细管整体柱。对各反应物的配比进行了优化。结果表明,当单体与致孔剂的质量比为1∶2.5,并且致孔剂中PEG与甲醇的质量比为1∶2,单体内部SPP与PETA的质量比为1∶1,AIBN为总质量的0.1%时为最优配比;PEG/甲醇二元致孔剂的加入实现了对整体柱内部孔径大小的调节,得到了结构更为均一,渗透性、机械稳定性良好的毛细管整体柱,并且理论塔板数与传统制备方法相比有显著提高,在毛细管液相色谱模式下最高可达2.4×105塔板/m。将制备的整体柱应用于毛细管液相色谱和加压毛细管电色谱分离酚类、核苷类等极性小分子混合物,得到了很好的分离效果。     

强极性中药组分的亲水作用色谱保留行为

采用亲水作用色谱模式,以二醇基硅胶为固定相,水-有机溶剂为流动相,通过改变流动相中有机溶剂种类及浓度、缓冲盐、有机酸种类及其浓度、柱温等条件,研究了强极性中药组分在亲水作用色谱中的保留行为。结果表明:流动相中水的比例在0～100%(V/V)变化时,溶质保留呈U型曲线,属于亲水色谱和反相色谱的混合保留机理。水含量在0～50%(V/V)范围时,亲水作用控制溶质的保留。溶质保留随流动相中缓冲盐浓度的增大而增强。对于酸性溶质,其保留随有机酸三氟乙酸、甲酸、乙酸的酸性降低而增大。     

基于二醛微晶纤维素功能化C18的反相/亲水色谱固定相的制备

通过十八烷基胺的氨基与二醛微晶纤维素的醛基共价键合,制备了基于二醛微晶纤维素(DMCC)官能化C₁₈的新型反相/亲水色谱固定相(C₁₈-DMCC/SiO₂),该色谱固定相被用于反相色谱(RPLC)和亲水相互作用色谱(HILIC)模式。C₁₈-DMCC/SiO₂色谱柱展现了良好的疏水选择性和芳香选择性,在反相色谱模式下可分离烷基苯和多环芳烃(PAHs)。苯胺类、酚类和糖苷类等极性化合物被用于评估该色谱柱在反相色谱模式下的极性选择性,商品C₁₈柱作对照柱,色谱评价结果令人满意。核酸碱基被用于评估C₁₈-DMCC/SiO₂色谱柱的亲水色谱性能。通过考察有机溶剂含量对分析物保留的影响,发现该新型色谱固定相具有反相/亲水色谱的典型特征。     

亲水作用色谱固定相的发展及应用

亲水作用色谱作为一种高效液相色谱技术,在强极性和离子型化合物如氨基酸、碳水化合物和多肽等的分离分析中发挥着重要作用。作为色谱技术的核心,亲水作用色谱材料的发展直接影响着色谱分离的选择性和分离效率,制约着亲水作用色谱的应用和推广。目前商品化和学术报道的亲水作用色谱材料种类繁多,键合相结构丰富。本文从色谱材料结构出发,综述了近5年内基于硅胶基质的亲水作用色谱固定相,包括纯硅胶、氨基、氰基、二醇基、酰胺型、聚（琥珀酰亚胺）型、糖型和两性离子型键合相的发展及其在极性药物、蛋白质组学、代谢组学等方面的典型应用。同时简要介绍了近年来亲水作用色谱的色谱评价研究。     

反相/亲水色谱法分析糖苷类化合物

根据皂苷、黄酮苷等糖苷类化合物的结构特点,采用亲水色谱模式分析该类化合物,以弥补反相色谱模式分离结构类似糖苷类化合物选择性的不足。首先选择14个糖苷类化合物,比较了反相色谱柱(XAqua C18)和亲水色谱柱(Click XIon)的分离效果,评价了反相/亲水色谱的正交性,并构建了反相/亲水二维体系用于西洋参样品的分离。结果表明,糖苷类化合物在反相及亲水色谱柱上均有很好的保留,但两者具有不同的分离选择性,14种物质在反相和亲水柱的出峰顺序有较大差异,在反相色谱中不易分离的人参皂苷Rg1和Re在亲水色谱柱可获得很好的分离,反相/亲水模式分离糖苷化合物具有很好的正交性。以构建的RPLC/HILIC二维色谱体系分离西洋参样品,有效地提高了分离能力及峰容量,有利于后续更多极性及微量化合物的制备、结构表征与活性研究,且该方法操作简便、流动相兼容性好,可作为糖苷分离分析、制备的有效手段,也可以为其他中药复杂体系的分析提供参考。     

反相/亲水色谱法分析糖苷类化合物

根据皂苷、黄酮苷等糖苷类化合物的结构特点,采用亲水色谱模式分析该类化合物,以弥补反相色谱模式分离结构类似糖苷类化合物选择性的不足。首先选择14个糖苷类化合物,比较了反相色谱柱(XAqua C18)和亲水色谱柱(Click XIon)的分离效果,评价了反相/亲水色谱的正交性,并构建了反相/亲水二维体系用于西洋参样品的分离。结果表明,糖苷类化合物在反相及亲水色谱柱上均有很好的保留,但两者具有不同的分离选择性,14种物质在反相和亲水柱的出峰顺序有较大差异,在反相色谱中不易分离的人参皂苷Rg1和Re在亲水色谱柱可获得很好的分离,反相/亲水模式分离糖苷化合物具有很好的正交性。以构建的RPLC/HILIC二维色谱体系分离西洋参样品,有效地提高了分离能力及峰容量,有利于后续更多极性及微量化合物的制备、结构表征与活性研究,且该方法操作简便、流动相兼容性好,可作为糖苷分离分析、制备的有效手段,也可以为其他中药复杂体系的分析提供参考。     

基于亲水作用色谱的寡糖色谱分离新进展

亲水作用色谱(HILIC)作为一种分离极性化合物的液相色谱模式,可以作为反相液相色谱的重要补充,解决极性化合物的分离问题。近几年,HILIC研究发展十分迅速,应用领域也不断拓展,其中寡糖分离是HILIC最典型的应用领域。HILIC适合分离强极性和亲水性样品,是寡糖分离的理想色谱模式。基于HILIC的寡糖分离技术发展迅速,本文以近期发表在主要国际刊物的几个工作为典型案例,介绍HILIC用于寡糖色谱分离的若干进展。     

羧基甜菜碱型亲水作用色谱柱的制备及性能研究

以甲基丙烯酰氧乙基二甲基乙酸铵(CBMA)为功能单体,利用表面引发原子转移自由基聚合(Surface-initiated atom transfer radical polymerization, SI-ATRP)技术,将CBMA接枝到硅胶表面,得到接枝聚合物CBMA的亲水作用色谱固定相(Silica-CBMA).通过改变SI-ATRP反应体系中单体的浓度,制备了3种不同接枝量的亲水作用色谱固定相.考察了Silica-CBMA固定相对有机酸类化合物的分离性能以及流动相中pH值、盐浓度、水含量等因素对溶质保留行为的影响.结果表明,在亲水作用色谱模式下,Silica-CBMA固定相对有机酸类化合物的分离是离子交换作用与亲水作用的混合色谱模式.流动相中盐浓度增大,溶质保留减弱,符合离子交换作用特征;固定相和溶质的离子化程度受流动相pH值影响较大,pH值增大,溶质保留增强;而溶质的保留时间随流动相水含量增加而降低则是典型的亲水作用色谱特征.使用自制Silica-CBMA柱,建立了芦丁片中维生素C、芦丁含量的亲水作用色谱测定方法,操作方法简单,为强极性样品的分离测定提供了新方法.     

基于二醛微晶纤维素功能化C_(18)的反相/亲水色谱固定相的制备（英文）

通过十八烷基胺的氨基与二醛微晶纤维素的醛基共价键合,制备了基于二醛微晶纤维素(DMCC)官能化C_(18)的新型反相/亲水色谱固定相(C_(18)-DMCC/SiO_2),该色谱固定相被用于反相色谱(RPLC)和亲水相互作用色谱(HILIC)模式。C_(18)-DMCC/SiO_2色谱柱展现了良好的疏水选择性和芳香选择性,在反相色谱模式下可分离烷基苯和多环芳烃(PAHs)。苯胺类、酚类和糖苷类等极性化合物被用于评估该色谱柱在反相色谱模式下的极性选择性,商品C_(18)柱作对照柱,色谱评价结果令人满意。核酸碱基被用于评估C_(18)-DMCC/SiO_2色谱柱的亲水色谱性能。通过考察有机溶剂含量对分析物保留的影响,发现该新型色谱固定相具有反相/亲水色谱的典型特征。     

磺酸甜菜碱型两性离子亲水毛细管整体柱制备及应用

以3-[N,N-二甲基-[2-(2-甲基丙-2-烯酰氧基)乙基]铵]丙烷-1-磺酸内盐(SPE)为功能单体,季戊四醇三丙烯酸酯(PETA)为交联剂,环己醇和乙二醇(EG)为致孔剂,通过原位聚合法制备磺酸甜菜碱型两性离子亲水毛细管整体柱。优化单体、交联剂和致孔剂的比例等因素,考察了不同SPE含量对整体柱性能和选择性的影响。在最优制备条件下,以苯酚类化合物、烷基苯类化合物和苯甲酸类化合物为分离对象,评价该整体柱的色谱性能以及分离机理。在不同的色谱条件下,该整体柱具有亲水、疏水以及离子交换作用。此整体柱在0.05 m L/min的流速下(线速度为0.265 mm/s)分离烷基苯类化合物时,柱效高达41000~56000 plates/m,该整体柱重现性良好,连续运行的重现性(RSD)低于1.2%。在亲水/离子交换色谱模式下,该整体柱可应用于核苷和碱基的高效分离。     

Stationary and mobile phases in hydrophilic interaction chromatography: a review

Hydrophilic interaction chromatography (HILIC) is valuable alternative to reversed-phase liquid chromatography separations of polar, weakly acidic or basic samples. In principle, this separation mode can be characterized as normal-phase chromatography on polar columns in aqueous-organic mobile phases rich in organic solvents (usually acetonitrile). Highly organic HILIC mobile phases usually enhance ionization in the electrospray ion source of a mass spectrometer, in comparison to mobile phases with higher concentrations of water generally used in reversed-phase (RP) LC separations of polar or ionic compounds, which is another reason for increasing popularity of this technique. Various columns can be used in the HILIC mode for separations of peptides, proteins, oligosaccharides, drugs, metabolites and various natural compounds: bare silica gel, silica-based amino-, amido-, cyano-, carbamate-, diol-, polyol-, zwitterionic sulfobetaine, or poly(2-sulphoethyl aspartamide) and other polar stationary phases chemically bonded on silica gel support, but also ion exchangers or zwitterionic materials showing combined HILIC-ion interaction retention mechanism. Some stationary phases are designed to enhance the mixed-mode retention character. Many polar columns show some contributions of reversed phase (hydrophobic) separation mechanism, depending on the composition of the mobile phase, which can be tuned to suit specific separation problems. Because the separation selectivity in the HILIC mode is complementary to that in reversed-phase and other modes, combinations of the HILIC, RP and other systems are attractive for two-dimensional applications. This review deals with recent advances in the development of HILIC phase separation systems with special attention to the properties of stationary phases. The effects of the mobile phase, of sample structure and of temperature on separation are addressed, too.     

Stationary phases for hydrophilic interaction chromatography, their characterization and implementation into multidimensional chromatography concepts

Hydrophilic interaction chromatography (HILIC) is becoming increasingly popular for separation of polar samples on polar columns in aqueous-organic mobile phases rich in organic solvents (usually ACN). Silica gel with decreased surface concentration of silanol groups, or with chemically bonded amino-, amido-, cyano-, carbamate-, diol-, polyol-, or zwitterionic sulfobetaine ligands are used as the stationary phases for HILIC separations, in addition to the original poly(2-sulphoethyl aspartamide) strong cation-exchange HILIC material. The type of the stationary and the composition of the mobile phase play important roles in the mixed-mode HILIC retention mechanism and can be flexibly tuned to suit specific separation problems. Because of excellent mobile phase compatibility and complementary selectivity to RP chromatography, HILIC is ideally suited for highly orthogonal 2-D LC-LC separations of complex samples containing polar compounds, such as peptides, proteins, oligosaccharides, drugs, metabolites and natural compounds. This review attempts to present an overview of the HILIC separation systems, possibilities for their characterization and emerging HILIC applications in 2-D off-line and on-line LC-LC separations of various samples, in combination with RP and other separation modes.     

Development and evaluation of new zwitterionic hydrophilic interaction liquid chromatography stationary phases based on 3-P,P-diphenylphosphonium-propylsulfonate

New zwitterionic stationary phases were synthesized by covalently bonding 3-P,P-diphenylphosphonium-propylsulfonate to silica gel. The resulting materials possess both a negatively charged sulfonate group and a positively charged quaternary phosphonium group, which means that there is no net charge over a wide pH range. The retention mechanism and chromatographic behavior of polar solutes under HILIC conditions were studied on these zwitterionic phases. Compared to the commercial ZIC-HILIC column and a bare silica gel stationary phase, the newly synthesized zwitterionic stationary phases provided greater retention, higher peak efficiency and better peak symmetry in the HILIC mode. The analytes examined included: β-blockers, nucleic acid bases and nucleosides, salicylic acid and its analogues, and water soluble vitamins. Factors, such as the type of organic modifiers, solvent composition, pH and the buffer concentration of the mobile phase, have been considered as potential variables for controlling the chromatographic retention of polar analytes.     

New zwitterionic polymethacrylate monolithic columns for one‐ and two‐dimensional microliquid chromatography

We prepared 0.53 and 0.32 mm id monolithic microcolumns by in situ copolymerization of a zwitterionic sulfobetaine functional monomer with bisphenol A glycerolate dimethacrylate (BIGDMA) and dioxyethylene dimetacrylate crosslinkers. The columns show a dual retention mechanism (hydrophilic‐interaction mode) in acetonitrile‐rich mobile phases and RP in highly aqueous mobile phases. The new 0.53 mm id columns provided excellent reproducibility, retention, and separation selectivity for phenolic acids and flavonoids. The new zwitterionic monolithic columns are highly orthogonal, with respect to alkyl silica stationary phases, not only in the hydrophilic‐interaction mode but also in the RP mode. The optimized monolithic zwitterionic microcolumn of 0.53 mm id was employed in the first dimension, either in the aqueous normal‐phase or in the RP mode, coupled with a short nonpolar core‐shell column in the second dimension, for comprehensive 2D LC separations of phenolic and flavonoid compounds. When the 2D setup with the sulfobetaine–BIGDMA column was used for repeated sample analysis, with alternating gradients of decreasing (hydrophilic‐interaction mode), and increasing (RP mode) concentration of acetonitrile on the sulfobetaine–BIGDMA column in the first dimension, useful complementary information on the sample could be obtained.     

硅胶色谱柱的亲水作用保留机理及其影响因素

亲水作用色谱（HILIC）是替代反相色谱（RPLC）分离强极性及亲水性化合物的另一色谱模式,其分离机理与RPLC有很大不同,具有和RPLC互补的选择性。在HILIC模式中,采用正相色谱（NPLC）中的极性固定相及含高浓度有机溶剂（通常为乙腈）的水溶液为流动相。硅胶是开发最早、研究最为深入及应用最为广泛的HILIC固定相,本文介绍了硅胶色谱柱的HILIC保留机理,详细概述了操作条件如硅胶柱类型、流动相组成及柱温对HILIC分离的影响,并对硅胶填料色谱柱的HILIC模式的发展方向与应用前景进行了展望。     

Retention and selectivity of stationary phases for hydrophilic interaction chromatography

More and more polar stationary phases have become available for the separation of small polar compounds in the past decade as hydrophilic interaction chromatography (HILIC) continues to find applications in new fields (e.g., metabolomics and proteomics). Bare silica phases remain popular, especially in the bio-analytical area. A wide range of functional groups (e.g., amino, amide, diol, sulfobetaine, and triazole) have been employed as polar stationary phases for HILIC separation. This review provides a survey of the popular stationary phases commercially available and discusses the retention and selectivity characteristics of the polar stationary phases in HILIC. The purpose of the review is not to provide a comprehensive overview of literature reports, but rather focuses on findings that demonstrate retention and selectivity of the polar stationary phases in HILIC.     

一种可控离子比例的两性亲水色谱固定相的制备及性能研究

将不同比例的氨基和巯基的硅烷偶联剂键合到硅胶表面，再利用巯基与乙烯基膦酸之间的点击化学反应将膦酸基团引入到硅胶表面，制备了一种可调节正负离子比例的两性亲水色谱固定相。通过测定固定相中C、H、N、P元素的含量，证明了氨基与膦酸基团已成功键合到固定相的表面，同时通过N元素与P元素的质量分数确定固定相表面氨基与膦酸基团的比例。制备了3种不同电荷比例的氨基膦酸固定相，将其作为亲水模式下的固定相填料填装在150 mm×4.6 mm不锈钢色谱柱中。以一系列经典的极性小分子作为探针，研究了流动相中乙腈含量、缓冲盐pH值及缓冲盐浓度等因素对探针分子在3种色谱柱上的保留的影响，结果表明，分析物在固定相上是多重保留机理。最后通过比较核苷、水溶性维生素、碱性化合物、苯甲酸这几类标准物质在3种色谱柱上的保留行为来对比3种不同电荷比例的固定相的分离选择性与色谱性能。结果表明，对于不同的分析物，3种固定相表现出完全不同的分离选择性和色谱行为。可以根据分析物的特征选取不同电荷比例的固定相，表明此种固定相在极性化合物的分离上具有良好的应用前景。     

Separation efficiencies in hydrophilic interaction chromatography

Hydrophilic interaction chromatography (HILIC) is important for the separation of highly polar substances including biologically active compounds, such as pharmaceutical drugs, neurotransmitters, nucleosides, nucleotides, amino acids, peptides, proteins, oligosaccharides, carbohydrates, etc. In the HILIC mode separation, aqueous organic solvents are used as mobile phases on more polar stationary phases that consist of bare silica, and silica phases modified with amino, amide, zwitterionic functional group, polyols including saccharides and other polar groups. This review discusses the column efficiency of HILIC materials in relation to solute and stationary phase structures, as well as comparisons between particle-packed and monolithic columns. In addition, a literature review consisting of 2006-2007 data is included, as a follow up to the excellent review by Hemstr?m and Irgum.     

Preparation of a monolithic column with a mixed‐mode stationary phase of reversed‐phase/hydrophilic interaction for capillary liquid chromatography

A monolithic capillary column with a mixed‐mode stationary phase of reversed‐phase/hydrophilic interaction chromatography was prepared for capillary liquid chromatography. The monolith was created by an in‐situ copolymerization of a homemade monomer N,N‐dimethyl‐N‐acryloxyundecyl‐N‐(3‐sulfopropyl) ammonium betaine and a crosslinker pentaerythritol triacrylate in a binary porogen agent consisting of methanol and isopropanol. The functional monomer was designed to have a highly polar zwitterionic sulfobetaine terminal group and a hydrophobic long alkyl chain moiety. The composition of the polymerization solution was systematically optimized to permit the best column performance. The columns were evaluated by using acidic, basic, polar neutral analytes, as well as a set of alkylbenzenes and Triton X100. Very good separations were obtained on the column with the mixed‐mode stationary phase. It was demonstrated that the mixed‐mode stationary phase displayed typic dual retention mechanisms of reversed‐phase/hydrophilic interaction liquid chromatography depending on the content of acetonitrile in the mobile phase. The method for column preparation is reproducible.