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。     

离子液体在色谱中的应用

离子液体是当前化学研究领域的一个热点,它在化学的各个领域都有研究和应用。该文就离子液体在毛细管电泳、气相色谱、高效液相色谱中的应用研究进展进行了较为详细的评述,对离子液体的分离检测作了简单的介绍,并对离子液体在色谱研究应用中的发展进行了展望。     

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。     

室温离子液体在分离分析中的应用

室温离子液体是指室温或接近室温下全部由离子组成的有机液体物质,具有不挥发,不易燃,溶解范围大,对空气和热稳定等特点,作为一种“可设计”型的环境相对友好溶剂,已被成功应用于分离分析领域中。本文重点综述了离子液体近年来在毛细管电泳、液相色谱及气相色谱中的应用进展,也对离子液体在质谱和光谱中的应用作了介绍。     

离子液体单滴顶空微萃取系列乙酯的性能及其气相色谱分析

通过改进气相色谱内衬管,避免离子液体进入色谱柱,实现了离子液体单滴微萃取与气相色谱的联用.利用改进装置考察了离子液体[C4MIM][PF6]对乙酸乙酯、丙酸乙酯、丁酸乙酯、戊酸乙酯、己酸乙酯和苯甲酸乙酯6种乙酯化合物的顶空萃取及气相色谱分析.在优选条件下,即以0.1 μL离子液体在0.36 g/mL NaCl溶液中,以0.1 μL离子液体40 ℃萃取分析物25 min后,气化室解吸1 min,得到富集倍数为3～141, 检出限为0.25～40 μg/L,线性范围约两个数量级,相对标准偏差为3%～8%.本方法装置简单,操作快捷,灵敏度较高,在试样前处理方面有广泛的应用价值.     

离子色谱法在离子液体阴阳离子分析中的应用

离子液体作为一种新型绿色环保有机化合物,因具有饱和蒸气压低、溶解性良好以及电导率高等优异性质,而在化学化工领域中得到了较为广泛的应用,并越来越受到人们的关注。该文综述了近年来离子色谱在离子液体阴阳离子分析中的应用,对离子色谱法分析离子液体阳离子、离子液体阴离子以及同时分析离子液体阴阳离子三方面进行讨论,并对离子色谱法分析离子液体的发展趋势进行了展望。     

离子液体在分离领域的研究进展

室温离子液体,又称离子液体,是一种在室温及接近室温的环境中完全以离子状态存在的液态物质.由于其具有不可燃、蒸汽压极低、黏度大、导电性和溶解能力好、高温稳定等特点,已被广泛应用于有机合成、催化、电化学、分析化学等领域.本文侧重介绍离子液体在样品预处理、毛细管电泳、高效液相色谱、气相色谱、质谱等分离领域的最新研究进展,并对其发展方向进行了展望.     

离子液体在分析化学中应用研究进展

离子液体具有低蒸汽压、低熔点、宽电化学窗口、良好离子导电性、导热性及高热稳定性等特点,是一种新型的软介质和功能材料。离子液体已经被用于分析化学的各个领域如分离科学、色谱体系、电化学分析与传感器、光谱与质谱等方面。并对室温离子液体在分析化学各个方面的最新应用进展进行了综述。     

离子液体中卤素离子杂质的离子色谱-直接电导检测法分析

研究了离子色谱-直接电导检测法分离测定离子液体中的卤素离子(F~-、Cl~-、Br~-)杂质.采用Shim-pack IC-A3阴离子交换色谱柱,考察了淋洗液种类及浓度、流速和色谱柱温度对分离测定的影响.最佳色谱条件为:以1.25 mmol/L邻苯二甲酸氢钾为淋洗液,流速1.5 mL/min,色谱柱温45 ℃.在此条件下可以基线分离卤素离子,且NO~-_3、BF~-_4、SO~(2-)_4不干扰测定.该法测定卤素离子的检出限(S/N=3)为0.02 ～0.11 mg/L,峰面积的相对标准偏差(n=5)不大于0.7%,F~-、Cl~- 和Br~- 的标准曲线的线性范围分别为0.1 ～50、0.1 ～50、0.5 ～100 mg/L.将方法用于烷基咪唑四氟硼酸盐离子液体中卤素离子杂质的测定,加标回收率为98% ～102%.     

吡啶离子液体阳离子的离子色谱法分析

建立了离子色谱-直接电导检测法分离测定3种吡啶离子液体阳离子(N-乙基吡啶、N-丁基吡啶和N-己基吡啶阳离子)的方法.采用磺酸型阳离子交换色谱柱,以乙二胺-柠檬酸-乙腈为淋洗液,考察了淋洗液种类和浓度以及色谱柱温度对离子液体阳离子保留的影响.实验发现,吡啶阳离子的保留过程是放热过程,其同系物的保留符合碳数规律.优化的色...     

Ionic liquid stationary phases for gas chromatography

This article provides a summary of the development of ionic liquids as stationary phases for gas chromatography beginning with early work on packed columns that established details of the retention mechanism and established working methods to characterize selectivity differences compared with molecular stationary phases through the modern development of multi-centered cation and cross-linked ionic liquids for high-temperature applications in capillary gas chromatography. Since there are many reviews on ionic liquids dealing with all aspects of their chemical and physical properties, the emphasis in this article is placed on the role of gas chromatography played in the design of ionic liquids of low melting point, high thermal stability, high viscosity, and variable selectivity for separations. Ionic liquids provide unprecedented opportunities for extending the selectivity range and temperature-operating range of columns for gas chromatography, an area of separation science that has otherwise been almost stagnant for over a decade.     

离子液体作添加剂对高效液相色谱分离植物激素的影响

探讨了以离子液体作为液相色谱流动相添加剂,对植物激素赤霉素GA3、生长素IAA和脱落酸ABA的分离的影响,以及离子液体的烷烃链长度,阴离子及离子液体的浓度对分离的影响。结果表明:咪唑阳离子和植物激素通过静电作用而保留;植物激素本身的pKa值影响其保留因子,pKa值增大,离子液体浓度对植物激素保留因子影响增大;另外随[BMIM]对应的阴离子电负性的减小,植物激素的保留因子明显地增大;同时植物激素的空间位阻也影响其分离。     

Analysis of selected ionic liquid cations by ion exchange chromatography and reversed-phase high performance liquid chromatography

The chromatographic behavior of 8 ionic liquids - 7 homologues of 1-alkyl-3-methylimidazolium and 4-methyl-N-butylpyridinium - has been investigated with a strong cation exchange adsorbent. In particular, the dependence of the retention properties of these solutes on mobile phase composition, pH, and buffer concentration was evaluated with the aim of optimizing and improving the selectivity and retention of solute separation. While using the SCX stationary phase, several interactions occurred with varying strengths, depending on the mobile phase composition. Cation exchange, nonspecific hydrophobic interactions, and adsorption chromatography behavior were observed. Reversed phase chromatography occurred at low concentrations of acetonitrile, electrostatic and adsorption interactions at higher organic modifier concentrations. Elevated buffer concentrations lowered the retention factors without affecting the selectivity of ionic liquids. Obtained results were further compared to the chromatographic behaviour of ionic liquids in the reversed phase system. All analyzed ionic liquids follow reversed-phase behavior while being separated. Much lower selectivity in the range of highly hydrophilic compounds is obtained. This suggests preferred use of ion chromatography for separation and analysis of compounds below 4 carbon atoms in the alkyl side chain.     

Partition coefficients of organic compounds in new imidazolium based ionic liquids using inverse gas chromatography

Partition coefficients of organic compounds in four ionic liquids: 1-ethanol-3-methylimidazolium tetrafluoroborate, 1-ethanol-3-methylimidazolium hexafluorophosphate, 1,3-dimethylimidazolium dimethylphosphate and 1-ethyl-3-methylimidazolium diethylphosphate were measured using inverse gas chromatography from 303.3 to 332.55 K. The influence of gas–liquid and gas–solid interfacial adsorption of different solutes on ionic liquids was also studied. Most of the polar solutes were retained largely by partition while light hydrocarbons were retained predominantly by interfacial adsorption on the ionic liquids studied in this work. The solvation characteristics of the ionic liquids were evaluated using the Abraham solvation parameter model.     

Ionic liquid-modified materials for solid-phase extraction and separation: A review

In recent years, materials science has propelled to the research forefront. Ionic liquids with unique and fascinating properties have also left their footprints to the developments of materials science during the last years. In this review we highlight some of their recent advances and provide an overview at the current status of ionic liquid-modified materials applied in solid-phase extraction, liquid and gas chromatography and capillary electrochromatography with reference to recent applications. In addition, the potential of ionic liquids in the modification of capillary inner wall in capillary electrophoresis is demonstrated. The main target material modified with ionic liquids is silica, but polymers and monoliths have recently joined the studies. Although imidazolium is still clearly the most commonly used ionic liquid for the covalently modification of materials, the exploitation of pyridinium and phosphonium will most probably increase in the future.     

Isolation and purification of alkaloids from lotus leaves by ionic‐liquid‐modified high‐speed countercurrent chromatography

An effective high‐speed countercurrent chromatography method was successfully established by using ionic liquids as the modifier of the two‐phase solvent system. Adding a small amount of ionic liquids significantly shortens the separation time and improves the separation efficiency. The conditions of ionic‐liquid‐modified high‐speed countercurrent chromatography including solvent systems, types and content of added ionic liquids, and ionic liquids posttreatment were investigated. The established method was successfully applied to separate alkaloids from lotus leaves using a two‐phase solvent system composed of petroleum ether/ethyl acetate/methanol/water/[C₄mim][BF₄] (1:5:1:5:0.15, v/v/v/v/v). Four alkaloids pronuciferine (1.7 mg), N‐nornuciferine (4.3 mg), nuciferine (3.1 mg), and roemerine (2.1 mg) were obtained with the purities of 90.53, 92.25, 99.86, and 98.63%, respectively, from 100 mg crude extract of lotus leaves. The results indicated that the ionic‐liquid‐modified high‐speed countercurrent chromatography method was suitable for alkaloid separation from lotus leaves and would be a promising method for the separation of alkaloids from other natural products.