序言

色谱柱是色谱分离分析的“心脏”，液相色谱技术的每一次重大进展都与分离固定相的突破密切相关。如上世纪70年代末期高效液相色谱技术的建立和90年代初期“灌流色谱”（Perfusion Chromatography）的发展都是基于多孔硅胶和“穿透孔”分离固定相的发展。近年来，基于特殊孔结构的1．5～2．0μm高强度复合材料的制备成功地催生了超高效液相色谱（UPLC）分离技术，而整体柱材料作为新一代的分离介质，已成为色谱领域广泛研究的前沿课题之一，并已经在样品预处理、手性分离、生物分离分析等领域获得十分广泛的应用。我国色谱研究工作者在多孔硅胶固定相、手性分离固定相、亲和色谱固定相和整体柱固定相等研究领域都取得了重大的进展，有些方面的研究工作已达到或领先于国际先进水平。     

整体柱制备技术的新进展及其在蛋白质组学中的应用

整体柱是通过在柱管内原位聚合或固化的方法制备得到的具有多孔结构的整体棒状固定相,与传统的填充柱相比,具有通透性好、传质速率快、容易制备等优点,因此在分离分析领域特别是生物分离分析中发挥的作用日益增大。整体柱的制备及应用近年来也得到了快速发展,层出不穷的新型整体柱已被广泛用于色谱高效分离分析、固相萃取及酶反应器等方面,大大推动了分离分析科学的发展。本文主要总结了近五年来整体柱的制备技术及其在蛋白质组学应用中的一些最新研究进展。     

流体动力学逆流色谱分离柱研究进展

近年来,以流体动力学为基础的逆流色谱仪在天然产物与生化药物分离中得到了广泛应用。柱设计是色谱体系的核心环节,分离柱管子的几何形状、安装方式,分离柱的位置、体积等因素都会对色谱行为和分离效率产生不同的影响。本文对基于流体动力学的现代逆流色谱分离柱的研制进展与应用情况进行综述,并对未来逆流色谱的改进进行了展望。     

由液相色谱保留值变化规律式推荐液相色谱分离模式的研究

 提出了液相色谱柱系统选择的二个基本条件，在此基础上应用统计热力学导出保留值当变化规律式，建立了符合色谱柱系统选择条件的液相色谱分离模式的推荐规则，并利用色谱专家系统中液相色谱谱图库的110张谱图，对该分离模式的推荐规则进行了初步验证，结果表明二者能较好地相符。     

连续二维开管离子交换/反相整体柱毛细管电色谱的构建与评价

在毛细管中原位合成反相整体色谱柱,并在同一根毛细管柱中的其余部分通过在内表面涂覆N-[3-(三甲氧基硅烷)-丙基)]-乙二胺(PEDA)使其具有离子交换功能,制备成连续二维开管离子交换/反相整体柱毛细管电色谱柱.通过对7种有机酸的分离探讨了开管柱中离子交换对分离的影响,进一步以天麻提取物为样品,对二维分离系统加以评价,...     

温敏性整体柱的制备及应用研究进展

整体柱是一种用有机或无机聚合方法在色谱柱内进行原位聚合的连续床固定相。将温敏凝胶引入到整体柱体系中制备得到的温敏性整体柱,不仅可以使分离过程调控简单,还可以避免有机溶剂的使用,使整个分离过程绿色环保。文章综述了温敏-普通整体柱、温敏-毛细管柱、温敏-微流控柱、温敏-印迹柱和温敏-磁性柱的制备方法,以及近十五年来温敏性整体柱在核酸、类固醇、金属离子和其他物质分离、富集等方面中的应用。     

引言

色谱柱是色谱分离分析的“心脏”,而色谱柱的分离性能主要由色谱固定相的性质所决定;因此,液相色谱技术的发展与色谱固定相的创新密切相关,如近年来细粒度(＜3 [WTBZ]μ[WTB4]m)固定相的研制成功为高压液相色谱(UHPLC)技术的发展奠定了基础。色谱固定相一直以来也是色谱研究领域的前沿和热点。近年来,整体柱材料、超细色谱固定相和基于介孔纳米材料的固定相等制备技术得到了快速发展,其在复杂样品的高效分离分析和样品预处理中的应用也获得了广泛的关注,并取得了重要进展。     

胃蛋白酶亲和有机聚合物毛细管整体柱的制备及性能考察

以热引发原位聚合方法制备了聚（甲基丙烯酸缩水甘油酯（glycidyl methacrylate,GMA）-乙二醇二甲基丙烯酸酯（ethyleneglycol dimethacrylate,EDMA））毛细管整体柱,对整体柱的性能进行了表征。结果表明,柱内部结构均匀、渗透性好;整体柱能够实现苯等中性小分子化合物的分离,具有反相色谱特征,重现性和稳定性良好。利用整体柱环氧基团的活性,采用间接法,以戊二醛为连接臂制备胃蛋白酶亲和手性整体柱。在毛细管电色谱模式下进行了柱分离性能研究,并对缓冲液pH值和运行电压等分离条件进行了考察。结果表明,亲和整体柱对4种碱性手性药物（奈福泮、氨氯地平、西酞普兰、扑尔敏）有拆分效果,奈福泮、氨氯地平、西酞普兰能达到基线分离。本文为蛋白质亲和毛细管电色谱整体柱的制备和应用提供了新的思路和方法。     

高效液相色谱整体柱在药物分离分析中的应用进展

本文对高效液相整体柱在药物分离分析方面的应用进行了综述.主要介绍了以烷氧基硅烷为主要原料,采用溶胶-凝胶法制备的硅胶整体柱,由于其具有微米级通孔结构和大的比表面积,他们在高效、快速分离小分子物质方面得到广泛地应用.对于聚合物整体柱,主要介绍了包括分子印迹聚合物在内的有机聚合物整体柱在药物分离、生物样品的处理等方面的应用.     

计算机辅助柱色谱最优化分离氨基酸

计算机辅助柱色谱最优化分离氨基酸王琴孙，颜炳文，王寿亭，陶雪（南开大学元素有机化学研究所，天津，３０００７１）（南开大学高分子化学研究所）关键词计算机，色谱最优化，柱色谱微型计算机的发展推动了整个色谱优化领域的发展，也陆续出现了一些优化分离方法［１～...     

多维高效液相色谱分离模式组合

简述了多维高效液相色谱法的特点及发展简况,重点对分子排阻色谱／反相色谱、离子交换色谱／反相色谱、正相色谱／反相色谱、分子排阻色谱／离子交换色谱、液固色谱／反相色谱、亲合色谱／反相色谱、非手性柱／手性柱等的联用模式及实际应用进行了概括和总结。     

Is click chemistry attractive for separation sciences?

Trends in LC focus on dedicated separation developments spanning different fields of applications ranging from sample preparation to miniaturization. Chromatographic performances result from the porous media, its implantation inside the “column,” and its surface functionalization. Because molecular interactions govern chromatographic phenomena, surface functionalization is still a hot research topic. Besides standard approaches for surface functionalization, the use of new surface chemistry reactions opens new perspectives. Click chemistry belongs to this new class of chemical reactions, characterized by its specificity, compatibility with aqueous media, and high reaction yields. In this frame, we review the use of click chemistry reactions in chromatographic sciences. In a first part, we present click chemistry with a specific focus on its implementation in stationary phases. The use of these new clicked materials is detailed and discussed with respect to the chromatographic mode.     

Nanomaterial-based adsorbents: the prospect of developing new generation radionuclide generators to meet future research and clinical demands

Nanostructured materials by virtue of huge surface to volume ratios, altered physical properties, tailored surface chemistry, favorable adsorption characteristics, and enhanced surface reactivity resulting from the nanoscale dimensions, have attracted considerable attention as a new class of adsorbent material in column chromatographic separation. This emerging class of adsorbent represents an innovative paradigm and is expected to play an important role in the development of radionuclide generators for nuclear medicine. The optimal combination of suitable nanomaterial and appropriate parent/daughter radionuclide pair forms the basis of such generators. Development of such generators is currently under intensive investigations and the utility of such systems is expected to pave the way for broad panoply of diagnostic and therapeutic applications in nuclear medicine. While nanomaterial-based radionuclide generator is still in its infancy, the use of such novel class of adsorbents is expected to have potential impact on shaping the radionuclide generator technology of future generation. This review provides a comprehensive summary on the utility of nanomaterials as effective adsorbents in the development column chromatographic radionuclide generators for medical applications. This overview outlines a critical assessment of role of the nanosorbents, recent developments, the contemporary status, and key challenges and apertures to the near future.     

Separation performance of graphene oxide as stationary phase for capillary gas chromatography

Graphene oxide(GO) has attracted extensive attention due to its unique properties and potential applications.Here,we report the investigation of GO nanosheets as a stationary phase for capillary gas chromatographic(GC) separations.The GO column,fabricated by a new one-step coating approach,showed average McReynolds constants of 308,suggesting the medium polar nature of the GC stationary phase.The GO stationary phase achieves good separation for analytes of different types with good peak shapes,especially for H-bonding analytes,such as alcohols and amines.The different retention behaviors of GO stationary phase from the conventional stationary phase may originate from its multiple interactions with analytes,involving H-bonding,dipole-dipole,π-π stacking and dispersive interactions.Moreover,GO column showed good separation reproducibility with relative standard deviation(RSD%) less than 0.24%(n = 5) on retention times of analytes.     

Comparison of different types of stationary phases for the analysis of soy isoflavones by HPLC

Nowadays, there are new technologies in high-performance liquid chromatography columns available enabling faster and more efficient separations. In this work, we compared three different types of columns for the analysis of main soy isoflavones. The evaluated columns were a conventional reverse phase particle column, a fused-core particle column, and a monolithic column. The comparison was in terms of chromatographic parameters such as resolution, asymmetry, number of theoretical plates, variability of retention time, and peak width. The lower column pressure was provided by the monolithic column, although lower chromatographic performance was achieved. Conventional and fused-core particle columns presented similar pressure. Results also indicate that direct transfer between particle and monolithic columns is not possible requiring adjustment of conditions and a different method optimization strategy. The best chromatographic performance and separation speed were observed for the fused-core particle column. Also, the effect of sample solvent on the separation and peak shape was evaluated and indicated that monolithic column is the most affected especially when using higher concentrations of acetonitrile or ethanol. Sample solvent that showed the lowest effect on the chromatographic performance of the columns was methanol. Overall evaluation of methanol and acetonitrile as mobile phase for the separation of isoflavones indicated higher chromatographic performance of acetonitrile, although methanol may be an attractive alternative. Using acetonitrile as mobile phase resulted in faster, higher resolution, narrower, and more symmetric peaks than methanol with all columns. It also generated the lower column pressure and flatter pressure profile due to mobile phase changes, and therefore, it presents a higher potential to be explored for the development of faster separation methods.     

Selectivity enhancement for the separation of tocopherols and steroids by integration of highly ordered weak interaction sites along the polymer main chain

A novel alternating copolymer-based organic phase was synthesized using a new N-substituted maleimide monomer for the development of alternating copolymer-grafted silica for high-performance liquid chromatographic applications. This new monomer (DGMI) was copolymerized with octadecyl acrylate (ODA) from 3-mercaptopropyltrimethoxysilane-grafted silica to produce Sil-poly(ODA-alt-DGMI). The organic phase was characterized by the elemental analysis and the diffuse reflectance infrared Fourier transform spectroscopy. Tocopherol isomers and steroids were used as analytes for the evaluation of the chromatographic selectivity profiles of this novel stationary phase. The selectivity of this column was then compared with a polymeric ODS column and previously developed another alternating copolymer-grafted silica (without the glutamide-derived moiety) column, Sil-poly(ODA-alt-N-octadecylmaleimide). The complete baseline separation of tocopherol isomers in an isocratic mode has been achieved within 25 min with the Sil-poly(ODA-alt-DGMI). The separation of eight kinds of estrogenic steroids and corticoids has also been achieved in an isocratic mode with this column. Significant differences in separation selectivity between Sil-poly(ODA-alt-DGMI) and polymeric ODS columns were observed towards the steroids, and compared with the reference columns, a better separation profile for these analytes was obtained with the Sil-poly(ODA-alt-DGMI). The results of this investigation indicated that the enhancement of selectivity of Sil-poly(ODA-alt-DGMI) towards the test analytes arose from the multiple interaction mechanism such as hydrophobic effect, carbonyl-π and hydrogen-bonding interactions, and such integrated interactions originated from the addition of two amide groups in the N-substituted maleimide monomer.     

蛋白质高效分离两维色谱柱的选择优化

为了构建高效的离子交换/反相二维液相色谱(IEC/RPLC)分离平台系统,提高复杂蛋白质样品的分离效率,对色谱柱进行了评价与筛选。通过对实际人肝蛋白质样品的分离效果的比较,选择确定了TSKgel DEAE-5PW弱阴离子交换色谱柱(WAX)作为第一维色谱分离柱;考察了同一规格的10支代表性反相色谱柱(250 mm×4.6 mm, 5 μm, 30 nm, C4、C8或C18),通过评价其对尿嘧啶、硝基苯、萘和芴的分离性能以及对3种标准蛋白质样品的非特异性吸附、对人肝蛋白质样品的WAX馏分的分离效果,最终确定以Jupiter 300 C4反相色谱柱作为第二维色谱分离柱。对两维色谱柱的选择优化为蛋白质高效分离二维液相色谱平台的搭建提供了可靠基础。     

Impact of adsorption isotherm parameters on the performance of enantioseparation using simulated moving bed chromatography

Often there are several chromatographic systems, i.e., combinations of mobile and stationary phases, available to solve a certain separation problem. Essential differences of these chromatographic systems are the separation factors and the efficiencies. For preparative applications in addition also the column saturation capacities and solubility limits are of importance. The impact of all these parameters appears to be rather well understood for conventional overloaded elution chromatography using a single column. In the last years the continuous simulated moving bed (SMB) process was increasingly used as a powerful alternative to batch elution since increased productivities and reduced solvent consumptions could be realised. However, the selection of suitable chromatographic systems is more sophisticated for this process. In this paper five different chromatographic systems capable of separating the enantiomers of mandelic acid are compared based on the achievable productivities using SMB chromatography. For these five systems the adsorption isotherms have been determined experimentally. Subsequently, an analysis of the SMB process was performed numerically using a well-established model.     

溴化1-乙烯基-3-十二烷基咪唑硅胶键合固定相制备及其色谱性能

膜脂作为细胞质膜的主要组成部分,在生命活动中扮演着重要的作用,其涉及多种重要疾病的发生和发展过程。发展适用于膜脂分离分析的新型色谱材料对于其后续结构和生物学功能研究具有重要的意义。该文选用具有潜在生物相容性的离子液体溴化1-乙烯基-3-十二烷基咪唑(1-vinyl-3-dodecylimidazole bromide, VDI)为功能单体,通过一步法点击反应将其接枝到巯基功能化硅球表面,制备得到了新型溴化1-乙烯基-3-十二烷基咪唑硅胶键合固定相(Sil-VDI)。利用傅里叶变换红外光谱仪和热重分析仪对Sil-VDI固定相材料的结构进行表征,结果证明Sil-VDI色谱固定相已被成功制备。保留机制研究显示填充Sil-VDI色谱柱具有典型的反相/离子交换混合模式保留特性。基于此,采用不同疏水性物质烷基苯、多环芳烃、苯胺、苯衍生物和无机阴离子BrO^-₃、NO^-₃和IO^-₃为测试物,对所制备固定相的色谱性能进行了研究。结果表明,该固定相对4类疏水性物质和无机阴离子...     

Chemically modified chiral monolithic silica column prepared by a sol-gel process for enantiomeric separation by micro high-performance liquid chromatography

In this work a new type of chiral monolith silica column was developed for the chiral separation by micro high-performance liquid chromatography (micro-HPLC). The chiral monolith column with a continuous skeleton and a large through-pore structure was prepared inside a capillary of 100 microm I.D. by a sol-gel process, and chemically modified with chiral selectors, such as L-phenylalaninamide, L-alaninamide and L-prolinamide, on the surface of the monolithic silica column. Based on the principle of ligand exchange, these chiral monolithic columns were successfully used for the separation of dansyl amino acid enantiomers, as well as hydroxy acid enantiomers by micro-HPLC. The chromatographic conditions, the enantioselectivity and the performance of columns are discussed.