亲水作用色谱填料的研究进展

亲水作用色谱是一种新型的色谱分离模式.此类色谱模式集反相色谱的经济廉价与正相色谱的优点于一体,有效补充了反相色谱的不足.简单介绍实验室中合成的新型亲水色谱固定相.     

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。     

高效液相色谱烷基硅胶键合固定相

综述了高效液相色谱烷基硅胶键合固定相研究的最新进展,参考文献４０篇。     

硅胶基质高效液相色谱填料研究进展

高效液相色谱(HPLC)不仅是一种有效的分析分离手段,也是一种重要的高效制备分离技术。色谱柱是HPLC系统的核心,不同性能的填料是HPLC广泛应用的基础。硅胶是开发最早、研究最为深入、应用最为广泛的HPLC固定相基质,其制备方法主要有喷雾干燥法、溶胶-凝胶法、聚合诱导胶体凝聚法及模板法等。近年来,亚2μm小粒径硅胶、核-壳型硅胶、双孔径硅胶、介孔性硅胶、有机杂化硅胶等新型硅胶应用于HPLC并取得了色谱分离技术的飞速发展,例如基于亚2μm填料的超高压液相色谱技术、基于核-壳型填料的快速分离技术、基于杂化硅胶填料的高温液相色谱技术等。硅胶经表面化学键合、聚合物包覆等有机改性可制得先进的大分子限进填料、温敏性填料、手性填料等,大大扩展了HPLC的应用范围。本文对液相色谱用硅胶的制备方法、改性与修饰方法以及硅胶基质固定相的评价方法加以系统综述,概述了新型硅胶在HPLC中的应用进展,并对硅胶基质填料的发展方向与应用前景进行了展望。     

Determination of Surface Silanols of Silica Gels and HPLC Bonded Phases

Abstract

A rapid method determining the surface silanols of silica gels and HPLC bonded phases involves a titration of silica gel with sodium hydroxide, in a medium of any of the following 10% aqueous salts: sodium chloride, sodium nitrate, sodium sulfate, potassium chloride, potassium nitrate and potassium sulfate. The silanols are quantified as m eg/g. It is possible to determine cation exchange capacity of a cation-exchanger due to an acid as an end group and surface silanols separately.     

Identification of Favorable Silica Surface Sites for Single-Molecule Magnets

Industrial data storage application based on single-molecule magnets (SMMs) necessitates not only strong magnetic remanence at high temperatures but also requires the implementation of SMMs into a solid material to increase their durability and addressability. While the understanding of the relationship between the local structure of the metal and the resulting magnetic behavior is well understood in molecular systems, it remains challenging to establish a similar understanding for magnetic materials, especially for isolated lanthanide sites on surfaces. For instance, dispersed Dy(III) ions on silica prepared via surface organometallic chemistry exhibit slow magnetic relaxation at low temperatures, but the origin of these properties remains unclear. In this work, we modelled ten neutral complexes with coordination numbers (CN) between three and six ([Dy(OSiF₃)₃(O(SiF₃)₂)_CN-3]) representing possible surface sites for dispersed Dy(III) ions and investigated their SMM potential via ab initio CASSCF/RASSI-SO calculations. Detailed analysis of the data shows the strong influence of the spatial position of the anionic ligands while the neutral ligands only play a minor role for the magnetic properties. In particular, a T-shape like orientation of the anionic ligands is predicted to exhibit good SMM properties making it a promising targeted coordination environment for molecular and surface-based SMMs.     

Adsorption of Gaseous Hydrocarbons on the Surface of Modified Petroleum-Polymeric Resins

The kinetics of adsorption of model hydrocarbons (benzene, toluene, ethyl benzene, isopropyl benzene, cyclohexane) from the gas phase on the surface of ozonized and maleized petroleum-polymeric resins was studied. The dependences of the dynamic equilibrium capacity of the petroleum-polymeric resins and of the adsorption kinetic parameters on the composition of the adsorbent-adsorbate system were elucidated.__________Translated from Zhurnal Prikladnoi Khimii, Vol. 78, No. 2, 2005, pp. 245–248.Original Russian Text Copyright © 2005 by Bondaletov, Troyan, Chernov, Bannikova, Dmitrieva.     

Adsorption/Desorption of Pesticidal Carboxylate Esters by Switching Liquid Phases on Humic‐Fraction‐Modified Silica Gel Matrix

A humic‐fraction‐modified silica gel is prepared and used as the adsorbent for various pesticidal carboxylate esters in hexane. The percentage of adsorption, calculated on the basis of the difference in peak areas for most carboxylate esters in hexane, reaches more than 90% in 1 h. The FTIR (Fourier Transform Infrared) Spectroscopy results show that the interaction force leading to the adsorption observed in hexane is dipole‐dipole oriented and is affected negatively both by the steric hindrance created due to the presence of the group near the carbonyl center of esters and the bulky alkyl group attached to an ether linkage. The hydrogen bonding (i.e. strong dipole‐dipole interaction) and π‐π stacking complexation are either absent or the minor force responsible for the adsorption of carboxylate esters in hexane in most cases. Other factors that cause the variation in the percentage of adsorption include the type of liquid phase (e.g. ethyl ether or acetonitrile vs. hexane) and the additive of acidic or basic origin present in the matrix, which renders the desorption approach for analyte adsorbed.     

用极性固定液改性高聚物PLOT柱的色谱性能研究

以乙基乙烯苯为单体、二乙烯苯为交联剂，在原位聚合制备的高聚物ＰＬＯＴ柱上用极性固定液ＰＥＧ－２０Ｍ和β，β＇－氧二丙腈进行改性，制备成高聚物气－液－固毛细管柱。通过对柱子热力学参数ｋ＇值的测定，可研究液相在分离过程中的作用及形成气－液－固分离机理所需的液相量。通过制作ｖａｎＤｅｅｍｔｅｒ曲线可研究柱子的动力学特性。发现在形成气－液－固柱后，曲线有明显的拐点，此时是否仍符合Ｇｏｌａｙ方程尚需作进一步的研究。     

Separations in Thin Layer and High Performance Liquid Chromatography Using Alkyl Silica Gel Bonded Phases

Abstract

Separations in thin layer (TLC) and high performance liquid chromatography (HPLC) using alkyl bonded phases were carried out under optimum solvent conditions for each of three phases, RP-2, RP-8 and RP-18. The phases were tested for their efficiency and resolving power using three groups of compounds in three binary organic-water mobile phases. The organic solvents were acetonitrile, methanol and tetrahydrofuran, which are widely used as solvent modifiers in reversed phase liquid chromatography.

The results showed that, unlike HPLC, TLC using RP-18 plates was the most, and RP-2 plates the least, efficient. A naphthalene and biphenyl mixture which was resolved by HPLC using any of the three solvents and columns was not resolved by TLC using any plate or solvent combination, unless the plate was prewashed with an organic modifier. The addition of NaCl (1–2% wt/vol) to the solvent for TLC speeded development unless an alcohol was used, but did not greatly affect the separation.     

Survey and Trends in the Preparation of Chemically Bonded Silica Phases for Liquid Chromatographic Analysis

In order to increase chromatographic selectivity and to extend the analytical capability of reversed phase liquid chromatography (RP HPLC) many investigators have concentrated on the preparation of silica based column packings with chemically bonded phases (CBP). These phases have also been successfully used in sample preparation techniques, mainly in solid phase extraction (SPE). Although alkyl bonded phases (e.g., C₂, C₈, and C₁₈) are the most widely used packings in RP HPLC and SPE, various specific applications require CBPs with polar functional groups (e.g., -NH₂, -NO₂, -CN, and/or -OH). The solution of problems with separation of complicated chiral compounds was attempted by applying stationary phases with chiral selectors (e.g., cyclodextrins, Pirkle phases, crown ethers, etc.). On the other hand, packings with pseudo-membrane or liquid crystal properties have been utilized for the separation of various substances of natural origin. Porous silica is commonly used as a support in the preparation of CBPs. Its physico-chemical characteristics, such as: type and structure of siliceous matrix, porosity, type and concentration of silanol groups, as well as surface purity, strongly influence the density and structure of chemically bonded phases. Recognition of these properties is helpful in optimizing separation processes based on RP HPLC elution and/or extraction of substances with polar character.     

Precursor Carboxy-silica for Functionalization With Interactive Ligands. II. Carbodiimide Assisted Preparation of Silica Bonded Stationary Phases with D-glucamine for Hydrophilic Interaction Liquid Chromatography

Chromatographia - A precursor carboxy-silica support was introduced for grafting a retentive polar ligand, namely D-glucamine, for use in hydrophilic interaction liquid chromatography. This support...     

Characterization of Modified Silica Gel as a Source of Ethene for Standard Gaseous Mixtures

The application of chemically modified silica gel as a source of gaseous standard mixture containing ethene as a measured component is described. The surface of silica gel was chemically modified, which resulted in the formation of N-oxide of diethylaminopropylsilylated silica gel. This compound undergoes thermal decomposition at 245°C, yielding known amounts of ethene. The process of thermal decomposition of chemically modified silica gel took place in a desorber furnace connected on-line via a four-port valve to the device being calibrated. Such a solution provides convenient calibration of a GC/FID system after direct introduction of a stream of the generated mixture onto the front of a GC. It was found that 480 ± 15 mg of ethene can be generated per 1 g of the modified gel.     

Ionizable Cyclofructan 6-Based Stationary Phases for Hydrophilic Interaction Liquid Chromatography Using Superficially Porous Particles

Chromatographia - One of the challenges of hydrophilic interaction liquid chromatography (HILIC) is the development of hydrolytically stable stationary phases. In this work, reproducible synthesis,...     

Synthesis of Hydrophilic and Hydrophobic High Surface Area Xerogels at pHs Below Silica Iso-electric Point

The synthesis of hydrophilic and hydrophobic high surface area (up to 1087 m²/cc) silica xerogels at pHs below 2 is demonstrated in this work. High surface area xerogels exhibit extremely fine microstructural features and fast gelation times (less than one hour). Contrary to conventional generalization that xerogels synthesized at low pH are polymeric, it is demonstrated that particulate xerogels can also be synthesized at pHs below 2. These xerogels are synthesized by the addition of large amounts of NH₄OH and have relatively lower surface areas. The particulate nature of these xerogels is indicated by their opacity and from their coarse microstructural features as observed by TEM.     

Novel Adsorbents for Hydrophilic Chromatography Based on Silica Gel Covalently Modified with Poly(ethylene glycol)

Moscow University Chemistry Bulletin - Novel stationary phases based on aminopropyl silica gel covalently modified with poly(ethylene glycol) (PEG) with different matrix-to-polymer mass ratios are...     

聚苯乙烯包夹硅基高效液相色谱固定相的研究

用包夹聚合法制备出一种新型的聚苯乙烯包夹硅基高效液相色谱固定相并进行了固定相的表征。对色谱行为的研究表明此固定相在分离碱性、强极性溶质时有良好的分离性能,固定相在较高ｐＨ的洗脱液中有较好的稳定性。     

表面修饰的有机-无机杂化微孔SiO2膜的制备及氢气分离性能

采用苯基三乙氧基硅烷(PTES)和1,2-双(三乙氧基硅基)乙烷(BTESE)为前驱体, 通过溶胶-凝胶法制备了苯基修饰的有机-无机杂化SiO2 膜材料. 通过N2吸附、视频光学接触角测量、热重分析和红外光谱对膜材料的孔结构和疏水性能进行了表征, 并深入研究了膜材料的氢气渗透和分离性能. 结果表明, 修饰后的膜材料具有微孔结构, 孔径集中分布在0.4~0.6 nm. 在温度为40 ℃, 湿度为70%~80%的水热环境下陈化30 d后, 膜材料仍保持微孔结构. 苯基修饰后膜材料具有疏水性, 当n(PTES)/n(BTESE)=0.6时, 膜材料对水的接触角达到(125±0.4)°. 氢气在膜材料中的输运遵循活化扩散机理, 300 ℃时, 膜材料的H2渗透率达到8.71×10-7mol·m-2·Pa-1·s-1, H2/CO2的理想分离系数达到5.53.     

液晶修饰的有机-无机杂化硅整体柱的制备及电色谱性能

合成了一种含有端烯基的液晶4'-(ω-十一烯基氧)-4-联苯酚,通过偶氮二异丁腈(AIBN)引发的自由基聚合反应将其用于修饰含有烯基的有机-无机杂化硅整体柱.将该整体柱应用于毛细管电色谱,成功分离了萘酚、多环芳烃、酞酸酯和甾体激素,与未修饰柱的分离效果进行比较发现,疏水作用、π-π作用和氢键作用是导致分离的主要原因.以...