树状大分子接枝型聚合物色谱分离材料研究进展

随着色谱固定相制备技术和材料科学领域的不断发展,目前已经有大量修饰方法和新型材料被用于固相萃取、高效液相色谱以及离子色谱聚合物固定相填料的功能化修饰。其中聚酰胺-胺(PAMAM)树状大分子由于其独特的结构和性质,在色谱分离材料结构完善和性能提升中也发挥了重要的作用。该文主要综述了PAMAM树状大分子在以聚合物为基质的色谱分离材料修饰中的应用,并对其今后的发展进行了展望。     

色谱分析中离子液体的应用及其测定

离子液体作为一种优良的溶剂越来越受到人们的关注。由于离子液体特殊的物理化学性质使其在色谱分析中也得到了较广泛的应用。本文综述了离子液体在气相色谱、高效液相色谱和毛细管电泳中的应用,其中包括离子液体作为气相色谱的固定相、高效液相色谱的固定相及流动相添加剂和毛细管电泳的电解质添加剂等,并对离子液体的色谱分离检测作了详细介绍。     

离子色谱固定相最新进展

介绍离子色谱固定相的最新研究进展。离子色谱固定相在多种类型、含多种功能基和高交换容量固定相,羟基选择性固定相,高效的涂覆型固定相,可变交换容量的固定相,静电离子和仿生离子固定相,整体式固定相。以及芯片式固定相等方面均有所发展。     

超支化修饰亲水型阴离子色谱柱的制备与应用

超支化树状修饰方法凭借灵活、可控的结构设计,在聚合物基固定相的疏水改性中发挥着重要作用。该文以聚苯乙烯-二乙烯基苯为基质微球,1,4-丁二醇二缩水甘油醚、四乙烯五胺为环氧-胺接枝原料,以甲胺封端,制备了亲水型离子色谱固定相。利用扫描电子显微镜(SEM)、比表面积分析仪(BET)、傅里叶红外光谱仪(FTIR)、X射线光电子能谱仪(XPS)分析固定相的形貌、结构和表面元素。随后将固定相填充成色谱柱,以无机阴离子、有机弱酸为分离目标评价色谱柱的分离性能和保留机制,计算目标离子的分离度和理论塔板数。通过改变淋洗液浓度、温度和种类,考察自制色谱柱的保留行为和分离性能。结果表明,采用环氧-胺树状支化的修饰方式引入羟基,可有效增加固定相的亲水性。二价离子(SO₄^2-、HPO₄^2-)受影响较大,表现出弱保留行为,而低价离子为离子交换保留行为。在3.6 mmol/L Na₂CO₃淋洗液条件下,制备的色谱柱可在20 min内完成12种阴离子(F^-、CH<...     

离子液体在气相色谱固定相中的应用

本文综述了离子液体在气相色谱固定相中的发展过程。为提高固定相的使用温度、选择性和色谱柱效,离子液体先后经历多次制备方法的改善,本文主要介绍了小分子离子液体、大体积离子液体、柱内烯基咪唑聚合离子液体、物理混配离子液体和化学键合离子液体等非手性离子液体的合成进展;同时综述了由手性氨基酸、手性胺和键合环糊精合成的手性离子液体的研究进展;并比较各种离子液体用作色谱固定相时的稳定性及选择性差异。另外,对离子液体在二维气相色谱和快速气相色谱中的应用扩展作了总结,并展望离子液体作为新型分离材料在气相色谱固定相中的研究和应用前景。     

聚硅氧烷离子液体用于快速气相色谱固定相的研究北大核心CSCD

合成了聚硅氧烷键合离子液体[PSOMIM][NTf2],并将其用作快速气相色谱柱的固定相。初步探索了采用短柱及小内径毛细管柱(3m×75μm i.d.)时的分离性能及固定相膜厚对分离性能的影响。与常规柱(8m×0.25mm i.d.)相比,在不损失分离度的前提下,分离速度可提高1~6倍;当膜厚为0.056μm时,可以将分离速度提高2~4倍。实验结果表明,聚硅氧烷键合离子液体固定相可以有效弥补由于缩短柱长所导致的分离度减小的问题,在快速气相色谱固定相方面具有较好的应用前景。     

离子色谱在稀土及过渡金属分析中的应用

离子色谱是Small等人于1975年发展的一种新的液相色谱分析技术,根据分离方式,离子色谱可分为高效离子色谱(HPIC),离子排斥色谱(HPICE)及流动相离子色谱(MPIC)。现今,离子色谱在环境、能源、化工、冶金、地质、电镀及医疗等方面已得到应用,其专著也陆续出版。 稀土是我国富产元素,是某些磁性材料、超导材料以及高温抗腐蚀合金的组成部分,在国民经济中起着重要作用。在能源及化工领域中需要严格控制过渡金属的含量,以降低有关部件的腐蚀。因此,分析稀土及过渡金属已是十分重要的课题。 用离子色谱法测定稀土及过渡金属具有快速,选择性好,可同时测定多组分及不同价态等特点。     

聚硅氧烷离子液体用于快速气相色谱固定相的研究

合成了聚硅氧烷键合离子液体[PSOMIM][NTf2],并将其用作快速气相色谱柱的固定相.初步探索了采用短柱及小内径毛细管柱(3 m×75 μm i.d.)时的分离性能及固定相膜厚对分离性能的影响.与常规柱(8m×0.25 mmi.d.)相比,在不损失分离度的前提下,分离速度可提高1～6倍;当膜厚为0.056 μm时,可以将分离速度提高2～4倍.实验结果表明,聚硅氧烷键合离子液体固定相可以有效弥补由于缩短柱长所导致的分离度减小的问题,在快速气相色谱固定相方面具有较好的应用前景.     

聚合离子液体毛细管气相色谱固定相的性能评价

离子液体作为毛细管气相色谱固定相的选择性和热稳定性是近年人们关注的课题。本文合成了1-烯基-3-苄基咪唑-二(三氟甲基磺酰)亚胺盐(VBIm-NTf2)离子液体并经毛细管柱内聚合制得了聚合离子液体PVBIm-NTf2色谱柱。与VBIm-NTf2色谱柱相比,PVBIm-NTf2色谱柱具有良好的色谱选择性和热稳定性。PVBIm-NTf2色谱柱对Grob试剂、醇混合物、酯混合物和苯系物等都表现了很好的分离能力,并且色谱峰峰形窄且对称。该聚合色谱柱在250 ℃下老化6 h后仍具有良好的分离能力和选择性。本文还测定了PVBIm-NTf2的Abraham溶剂化参数,解析了该固定相与溶质间的相互作用,相关研究国内尚未见报道。研究表明,对常规离子液体进行柱内聚合是改善常规离子液体气相色谱固定相的热稳定性和选择性的有效途径。     

聚硅氧烷键合的离子液体用作高温气相色谱固定相的研究

合成了阴离子为二(三氟甲基磺酸酰)亚胺(NTf-2)的新型聚硅氧烷键合离子液体 ([PSOMIm][NTf2]),并采用静态涂渍法,制备了毛细管气相色谱柱.该固定相具有良好的热稳定性.热重测试显示,温度高于380 ℃后,[PSOMIm][NTf2]开始缓慢分解.色谱性能评价显示,此固定相对多种异构体和同系物均具有良好的分离选择性和高的热稳定性.对Grob试剂的分离结果表明,各种组分均能在柱上得到良好的分离且峰的对称性很好.此新型聚合物离子液体在高温气相色谱固定相的研究和应用方面具有较大的潜力.     

整体柱离子色谱的研究进展

该文介绍了离子色谱的分类,整体柱的分类、制备及特点,并以此为依据归纳总结了常规整体柱在离子色谱中的应用和毛细管整体柱在毛细管离子色谱中的应用,其中包括硅胶基质整体柱和聚合物基质整体柱,评述并展望了整体柱离子色谱的发展前景.     

Separation of Polar and Basic Compounds in Hydrophilic Interaction Pressurized CEC Using Diethylenetriaminopropyl Silica Monolithic Columns

A novel silica-based monolithic column possessing diethylenetriaminopropyl ligands for hydrophilic interaction pressurized capillary electrochromatography is described. The preparation of monolithic stationary phase was based on the individual silica matrix forming and subsequent chemical bonding. The triamino groups on the surface of the novel stationary phase generated a sustainable anodic electroosmotic flow under acidic conditions. A variety of neutral and basic analytes were used to evaluate the column performance. The monolithic silica stationary phase exhibited hydrophilic interaction chromatographic behavior toward neutral solutes. For basic tetracycline antibiotics, hydrophilic interaction as well as electrophoretic migration process with the monoliths was observed and peak tailing was avoided.     

Electrochromatographic enantioseparation using chiral ligand exchange monolithic sol-gel column

This paper describes the development of a monolithic sol-gel column modified with l-hydroxyproline as a ligand exchange chiral stationary phase. It has been demonstrated that the monolithic chiral stationary phase can be used for the enantioseparation of dansyl amino acids, free amino acids, hydroxy acids, and dipeptides by capillary electrochromatography and micro-liquid chromatography. The recommended mobile phase was acetonitrile/0.50 mM Cu(Ac)₂-50 mM NH₄Ac (7:3) adjusted to pH 6.5. The characteristics of the monolithic column using hydroxyproline as chiral selector in CEC have been discussed.     

Preparation of chitosan functionalized monolithic silica column for hydrophilic interaction liquid chromatography

A novel cationic hydrophilic interaction monolithic stationary phase based on the chemical modification of carboxymethyl chitosan (CMCH) to the monolithic silica skeleton using carbodiimide as an activation reagent was prepared for performing capillary liquid chromatography. The amino and hydroxy moieties of CMCH functioned as both the ion-exchange sites and polar providers. The performance of the column was studied by the separation of polar acidic compounds. The chitosan functionalized monolithic silica column showed good selectivity for nucleosides, nucleotides, aromatic acids and aliphatic acids. The mechanism for the separation of these compounds was also studied. The results showed that these compounds were separated primarily based on the hydrophilic interaction mechanism.     

Study of triacontyl-functionalized monolithic silica capillary column for reversed-phase capillary liquid chromatography

A novel stationary phase triacontyl-functionalized monolithic silica capillary column was successfully prepared for reversed-phase capillary liquid chromatography. The performance of the monolithic silica capillary column coated with triacontyl chain for the separation of alkylbenzenes, xylene isomers, polycyclic aromatic hydrocarbons, and mixture of α- and β-carotenes was studied, which was compared to that using the monolithic silica capillary column coated with octadecyl chain. The comparison results showed that triacontyl-functionalized monolithic silica capillary column would be a promising media to be used for the separation of isomeric solutes with long chain in reversed-phase capillary liquid chromatography.     

酯型十八烷基键合硅胶整体柱的制备、表征及性能评价

将硅烷偶联剂γ-(2,3-环氧丙氧)丙基三甲氧基硅烷与十八酸反应,再键合到硅胶整体柱上,得到了酯型十八烷基键合固定相,并用红外光谱、元素分析对其进行了表征。在以甲醇-水为流动相的反相色谱条件下分离了苯、联苯和蒽的混合样品,评价了该整体柱的色谱性能,考察了该整体柱适用的pH范围,以及柱压降、柱效与流速的关系。结果表明,该硅胶整体柱键合效果良好,具有较好的反相色谱性能,且在pH=2～8时稳定性好,柱压降、柱效受流速影响较小,可有效地用于化合物的快速分离分析。     

Preparation of a mixed-mode hydrophilic interaction/anion-exchange polymeric monolithic stationary phase for capillary liquid chromatography of polar analytes

A novel cationic hydrophilic interaction monolithic stationary phase based on the copolymerization of 2-(methacryloyloxy)ethyltrimethylammonium methyl sulfate (META) and pentaerythritol triacrylate (PETA) in a binary porogenic solvent consisting of cyclohexanol/ethylene glycol was designed for performing capillary liquid chromatography. While META functioned as both the ion-exchange sites and polar ligand provider, the PETA, a trivinyl monomer, was introduced as cross-linker. The monolithic stationary phases with different properties were easily prepared by adjusting the amount of META in the polymerization solution as well as the composition of the porogenic solvent. The hydrophilicity of the monolith increased with increasing content of META in the polymerization mixture. A typical hydrophilic interaction chromatography mechanism was observed when the content of acetonitrile in the mobile phase was higher than 20%. The poly(META-co-PETA) monolith showed very good selectivity for neutral, basic and acidic polar analytes. For polar-charged analytes, both hydrophilic interaction and electrostatic interaction contributed to their retention. Peak tailing of basic compounds was avoided and the efficient separation of benzoic acid derivatives was obtained.     

Chromatographic selectivity of poly(alkyl methacrylate-co-divinylbenzene) monolithic columns for polar aromatic compounds by pressure-driven capillary liquid chromatography

In this study, divinylbenzene (DVB) was used as the cross-linker to prepare alkyl methacrylate (AlMA) monoliths for incorporating π-π interactions between the aromatic analytes and AlMA-DVB monolithic stationary phases in capillary LC analysis. Various AlMA/DVB ratios were investigated to prepare a series of 30% AlMA-DVB monolithic stationary phases in fused-silica capillaries (250-μm i.d.). The physical properties (such as porosity, permeability, and column efficiency) of the synthesized AlMA-DVB monolithic columns were investigated for characterization. Isocratic elution of phenol derivatives was first employed to evaluate the suitability of the prepared AlMA-DVB columns for small molecule separation. The run-to-run (0.16–1.20%, RSD; n = 3) and column-to-column (0.26–2.95%, RSD; n = 3) repeatabilities on retention times were also examined using the selected AlMA-DVB monolithic columns. The π-π interactions between the aromatic ring and the DVB-based stationary phase offered better recognition on polar analytes with aromatic moieties, which resulted in better separation resolution of aromatic analytes on the AlMA-DVB monolithic columns. In order to demonstrate the capability of potential environmental and/or food safety applications, eight phenylurea herbicides with single benzene ring and seven sulfonamide antibiotics with polyaromatic moieties were analyzed using the selected AlMA-DVB monolithic columns.     

Histidine‐modified organic‐silica hybrid monolithic column for mixed‐mode per aqueous and ion‐exchange capillary electrochromatography

A novel organic‐silica hybrid monolith was prepared through the binding of histidine onto the surface of monolithic matrix for mixed‐mode per aqueous and ion‐exchange capillary electrochromatography. The imidazolium and amino groups on the surface of the monolithic stationary phase were used to generate an anodic electro‐osmotic flow as well as to provide electrostatic interaction sites for the charged compounds at low pH. Typical per aqueous chromatographic behavior was observed in water‐rich mobile phases. Various polar and hydrophilic analytes were selected to evaluate the characteristics and chromatographic performance of the obtained monolith. Under per aqueous conditions, the mixed‐mode mechanism of hydrophobic and ion‐exchange interactions was observed and the resultant monolithic column proved to be very versatile for the efficient separations of these polar and hydrophilic compounds (including amides, nucleosides and nucleotide bases, benzoic acid derivatives, and amino acids) in highly aqueous mobile phases. The successful applications suggested that the histidine‐modified organic‐silica hybrid monolithic column could offer a wide range of retention behaviors and flexible selectivities toward polar and hydrophilic compounds.