以枝形大分子聚酰胺-胺(PAMAM)为键合固定相的开管毛细管电色谱柱的制备及评价

用3-氨丙基三乙氧基硅烷(KH550)作偶联剂, 在毛细管内壁上逐步合成树枝形大分子聚酰胺-胺(PAMAM), 制得了1, 2和3代PAMAM键合的开管毛细管电色谱柱, 并对其性能进行了研究. 结果表明, 随着大分子代数的增加, 毛细管电渗流(EOF)逐步下降. 利用制得的1, 2和3代PAMAM修饰的开管毛细管电色谱柱对丙氨酸和脯氨酸的分离进行对比, 结果显示, 随着大分子PAMAM代数的增加, 分离度逐步增大, 丙氨酸和脯氨酸可在3代树枝状大分子PAMAM修饰的开管毛细管电色谱柱上达到基线分离. 采用非衍生化法和3代PAMAM修饰的开管毛细管电色谱柱成功地分析了精氨酸、 丙氨酸、 脯氨酸、 甲硫氨酸和组氨酸. 结果表明, 键合毛细管柱具有良好的重现性和稳定性.     

微波辅助合成法制备聚酰胺-胺树枝状分子修饰的开管毛细管电色谱柱

采用微波辅助合成技术,快速制备以聚酰胺-胺(poly(amidoamine),PAMAM)树枝状分子为固定相的开管毛细管电色谱柱.与常规合成方法相比,微波辅助合成法可以提高反应速度,极大地缩短制备周期.在pH 5.7～8.0范围内, 随着PAMAM树枝状分子代数的增加,毛细管电渗流(EOF)逐步下降.对丙氨酸和脯氨酸进行分离的实验结果表明,随着PAMAM树枝状分子代数的增加,分离度逐步增大,3代PAMAM树枝状分子修饰的毛细管柱具有良好的分离效果.以丙酮标记物连续测定10 d,柱效下降3.85%, 表明采用微波辅助合成技术制得的PAMAM树枝状分子修饰的毛细管柱具有良好的稳定性.     

氧化石墨烯修饰多孔复合涂层超长开管液相色谱柱的制备与评价

采用原位聚合法在毛细管柱(3 m ×25μm i. d.)内壁制备粗糙结构的聚氯甲基苯乙烯二乙烯基苯涂层,并将氧化石墨烯以共价键合的方式固定在涂层表面,制备成氧化石墨烯修饰多孔复合涂层超长开管毛细管液相色谱柱。通过扫描电镜、透射电镜、拉曼光谱等手段对固定相的结构进行表征,证实聚氯甲基苯乙烯二乙烯基苯涂层具有球形分散结构,而片状的氧化石墨烯均匀覆盖在聚合物层表面。球状的聚合物层及氧化石墨烯的覆盖极大地提高了色谱柱的相比及样品容量,乙腈-水为流动相可分离烷基苯、中性多环芳烃、酸性和碱性化合物,乙腈-0.02 mol/ L 醋酸铵为流动相可实现4种核酸碱基样品的分离。制备的色谱柱具有良好的重复性和稳定性,测试的日内、日间、柱间重复性(n=6)相对标准偏差(RSD)均在0.3%~2.0%范围内。     

羧甲基壳聚糖修饰的开管毛细管电色谱柱的制备与表征

以γ-(2,3-环氧丙氧基)丙基三甲氧基硅烷为偶联剂,将羧甲基壳聚糖键合至毛细管内壁上。对毛细管预处理、硅烷化以及羧甲基壳聚糖键合反应参数进行了优化,考察了开管柱内表面结构形貌、电渗流、重现性和电色谱分离性能。扫描电镜图显示羧甲基壳聚糖均匀地键合在毛细管内表面。调节流动相的pH值可产生正向和反向电渗流,电渗流的相对标准偏差(RSD): 日内小于0.8%(n=6)、日间小于3.5%(n=3)、同一批次间小于4.3%(n=3)、不同批次柱间小于6.1%(n=3),重现性较好。4种核苷酸(腺嘌呤核苷酸、鸟嘌呤核苷酸、胞嘧啶核苷酸、尿嘧啶核苷酸)在修饰后的毛细管电色谱柱上得到了较好的分离,柱效达到36000～182000 塔板/m。结果表明,所建立的开管柱制备方法简单有效、稳定性好。     

微波辅助合成法快速制备替考拉宁开管毛细管电色谱柱

采用微波辅助合成技术,快速制备了以替考拉宁为固定相的开管毛细管电色谱柱。在pH 4.0~7.0的范围内比较了空管与替考拉宁修饰柱的电渗情况,表明替考拉宁开管毛细管电色谱柱有效地降低了电渗。用该色谱柱分离了多种手性对映体,均达到基线分离,体现了替考拉宁开管毛细管电色谱柱良好的分离性能。以DL-色氨酸考察了柱子的稳定性和重现性,结果显示采用微波辅助合成技术制得的替考拉宁开管毛细管电色谱柱具有良好的稳定性和重现性。     

新型二氧化硅纳米毛细管开管柱的制备及其电色谱性能的研究

本文通过原位聚合反应合成了一种基于纤维状二氧化硅纳米(fSiO_2)和聚合物(DMAEMA polymer)的材料(P-fSiO_2),将该材料采用物理吸附的方式涂覆到毛细管内壁,制备了新型的毛细管电色谱开管柱(P-fSiO_2开管柱),并将其应用于磺胺类物质的开管毛细管电色谱(OT-CEC)分离分析。P-fSiO_2开管柱的制备方法简便快捷、涂层稳定、重复性好,其中日内相对标准偏差(RSD)值小于4.3%(n=6),日间RSD小于4.9%(n=6),柱间RSD为2.2%(n=5)。通过对缓冲溶液浓度、pH值以及分离电压等因素的考察,可以实现对8种磺胺类化合物的良好分离,其中磺胺喹恶啉(SQX)的柱效高达228 542 N/m。     

新型聚合物多孔涂层毛细管开管柱的制备及电色谱研究

以甲基丙烯酸缩水甘油酯(GMA)和乙二醇二甲基丙烯酸酯(EDMA)为前驱体制备了新型聚合物多孔涂层毛细管开管(PLOT)柱固定相。通过优化聚合反应时间、致孔剂比例及交联剂比例获得了色谱性能良好的PLOT柱,扫描电镜结果显示毛细管柱内的多孔涂层厚度适中且均匀。在毛细管电色谱模式下,PLOT柱以反相色谱分离机理有效分离了中性、酸性和碱性小分子。人血清白蛋白(HSA)共价结合的蛋白亲和PLOT柱对5对手性对映体实现了较好的分离,且其分离度远高于HSA修饰的单层聚合物毛细管开管柱。PLOT柱分离烷基苯的日内、日间和柱间的相对标准偏差分别小于1.7%、4.8%和7.8%。     

玻璃毛细管气相色谱讲座 第一讲 玻璃毛细管气相色谱的一般知识

玻璃毛细管气相色谱,简称(GC)~2,它是玻璃微填柱、填充毛细管柱和开管柱气相色谱的总称。人们习惯上讲的毛细管柱主要是指1957年 Galay 首创的开管柱。之所以叫开管柱是由于此柱的结构为固定液附着于毛细管的内壁,而管中间留有对载气开放的通道。本文所称毛细管柱即为开管柱。经典的开管柱是将固定液直接涂溃于毛细管内壁(即 WCOT 柱)。Desty 等设计并加工的玻璃毛细管拉制机,为(GC)~2的推广和发展提供了有利的条件。由于玻璃柱对固定液的润湿性差,后来又相继发展了各种壁处理的开管柱(WTOT 柱),其中多孔层开管柱(PLOT 柱)是较理想的柱型之一。载体涂层开管柱(SCO(?) 柱)是 PLOT 柱中最常用的柱型。1979年出现的熔融氧化硅开管柱(FSOT柱)为(GC)~2增添了新的具有柔性和惰性的柱型。毛细管色谱在我国的发展起始于1959年,丁景群等对毛细管色谱的理论及应用做了许多工作,但直到七十年代中后期才有了较快的发展,先后成功地制成了微填柱 WCOT 柱、PLOT 柱、SCOT柱和 FSOT 柱。1980年全国第一届毛细管色谱学术报告会的召开,标志着我国的毛细管色谱研究与应用进入一个新的发展阶段。本讲座共分四讲:玻璃毛细管气相色谱的一般知识;玻璃毛细管柱的制备;毛细管柱的色谱系统;玻璃毛细管气相色谱的应用。由于篇幅原因及作者们的水平所限,文中缺点、错误定所难免,敬希读者指正。     

一种新型超支化聚酯物理吸附涂层毛细管电泳柱的制备及其对碱性蛋白质的分离

采用一步法和准一步法合成了以季戊四醇为核的两个系列的超支化聚酯,利用红外光谱、羟值测定等手段对分子结构进行了表征。利用超支化聚合物低粘度的特点,用物理吸附方法将其涂于毛细管电泳柱内壁,使其在毛细管内壁上形成稳定的超支化聚酯涂层。该涂层在pH 3.0~7.0范围内能够有效地抑制电渗流和蛋白质在毛细管壁上的吸附,在pH 5.0的缓冲液中分离碱性蛋白质时,分离柱效可达105塔板/m,具有良好的分离效果。     

丙二酰胺型大环多胺键合固定相在毛细管开管电色谱中的应用

毛细管电色谱 ( Capillary electrochromatography,简称 CEC)是近年发展起来的一种高效、快速的新型微柱分离方法 [1～ 4] .由于它在毛细管柱内填充液相色谱固定相或者在毛细管内壁键合固定相 ,且采用电渗流作为驱动力 ,因而兼有高效液相色谱和毛细管电泳的分离特点 ,已应用于复杂的药物分析 [2 ] .填充柱毛细管柱具有工艺要求高、容易产生气泡、焦耳热和价格昂贵等缺点 .开管柱电色谱( Open- tubular CEC,简称 OTCEC)是将固定相键合或涂覆在毛细管的内壁 ,避免了上述缺陷 .因此已引起高度重视 [3,4] .大环多胺的结构与冠醚类似 ,是一…     

Preparation and evaluation of a neutral methacrylate-based monolithic column for hydrophilic interaction stationary phase by pressurized capillary electrochromatography

A polar and neutral polymethacrylate-based monolithic column was evaluated as a hydrophilic interaction capillary electrochromatography (HI-CEC) stationary phase with small polar–neutral or charged solutes. The polar sites on the surface of the monolithic solid phase responsible for hydrophilic interactions were provided from the hydroxy and ester groups on the surface of the monolithic stationary phase. These polar functionalities also attract ions from the mobile phase and impart the monolithic solid phase with a given zeta potential to generate electro-osmotic flow (EOF). The monolith was prepared by in situ copolymerization of a neutral monomer 2-hydroxyethyl methacrylate (HEMA) and a polar cross-linker with hydroxy group, pentaerythritol triacrylate (PETA), in the presence of a binary porogenic solvent consisting cyclohexanol and dodecanol. A typical HI-CEC mechanism was observed on the neutral polar stationary phase for both neutral and charged analytes. The composition of the polymerization mixture was systematically altered and optimized by altering the amount of HEMA in the polymerization solution as well as the composition of the porogenic solvent. The monoliths were tested in the pCEC mode. The resulting monoliths had different characteristics of hydrophilicity, column permeability, and efficiency. The effects of pH, salt concentration, and organic solvent content on the EOF velocity and the separation of nucleic acids and nucleosides on the optimized monolithic column were investigated. The optimized monolithic column resulted in good separation and with greater than 140,000 theoretical plates/m for pCEC.     

Controlled grafting of well-defined epoxide polymers on hydrogen-terminated silicon substrates by surface-initiated ATRP at ambient temperature

Controlled grafting of well-defined epoxide polymer brushes on the hydrogen-terminated Si(100) substrates (Si-H substrates) was carried out via the surface-initiated atom-transfer radical polymerization (ATRP) at room temperature. Thus, glycidyl methacrylate (GMA) polymer brushes were prepared by ATRP from the alpha-bromoester functionalized Si-H surface. Kinetic studies revealed a linear increase in GMA polymer (PGMA) film thickness with reaction time, indicating that chain growth from the surface was a controlled "living" process. The graft polymerization proceeded more rapidly in the dimethylformamide/water (DMF/H(2)O) mixed solvent medium than in DMF, leading to much thicker PGMA growth on the silicon surface in the former medium. The chemical composition of the GMA graft-polymerized silicon (Si-g-PGMA) surfaces were characterized by X-ray photoelectron spectroscopy (XPS). The fact that the epoxide functional groups of the grafted PGMA were preserved quantitatively was revealed in the reaction with ethylenediamine. The "living" character of the PGMA chain end was further ascertained by the subsequent growth of a poly(pentafluorostyrene) (PFS) block from the Si-g-PGMA surface, using the PGMA brushes as the macroinitiators.     

谷胱甘肽修饰的SiO2@Au核壳填料的制备及其作为毛细管液相色谱和加压电色谱固定相的性能评价

利用醛基和氨基之间的席夫碱反应在SiO₂微球表面引入聚合物分子聚乙烯亚胺(polyethyleneimine, PEI),以提高微球表面的氨基含量;然后利用自组装-化学镀法制备了SiO₂@Au核壳填料,并对制备过程中反应溶液的pH值和甲醛用量进行了优化。场发射扫描电子显微镜表征结果显示,经过条件优化后制备的SiO₂@Au核壳颗粒的表面Au包覆量较高,且包覆均匀、分散性较好。最后将谷胱甘肽(glutathione, GSH)分子修饰在SiO₂@Au表面,条件优化后成功地制备了一种新型的两性离子型亲水色谱材料SiO₂@Au-GSH,并将该填料填入毛细管中,制备了SiO₂@Au-GSH两性离子型毛细管亲水色谱柱,并在毛细管液相色谱和加压毛细管电色谱系统中考察了色谱柱的亲水性能,研究证明SiO₂@Au-GSH毛细管柱具有较好的分离能力和亲水性质。     

Preparation of imidazole-functionalized silica by surface-initiated atom transfer radical polymerization and its application for hydrophilic interaction chromatography

A novel imidazole-functionalized stationary phase for hydrophilic interaction chromatography (HILIC) was prepared via surface-initiated atom transfer radical polymerization (SI-ATRP). 1-Vinylimidazole as a monomer was polymerized on the surface of initiator-immobilized silica by SI-ATRP using CuCl and 2,2'-bipyridyl as a catalyst. The graft chain length and polymer grafting density were controlled by varying the ratio of monomer to initiator. The resulting materials were characterized by elemental analysis and thermogravimetric analysis. Then, high-performance liquid chromatography separation of eight nucleobases/nucleosides was performed on the imidazole-functionalized chromatographic column in HILIC mode. The effects of mobile phase composition, buffer pH, and column temperature on the separation of nucleobases/nucleosides were investigated, and the retention mechanisms were studied. Chromatographic parameters were calculated, and the results showed that surface adsorption through hydrogen bonding and electrostatic interaction dominated the retention behavior of the solutes in HILIC mode. Lastly, the stationary phase was successfully used to determine the nucleobases and nucleosides from Cordyceps militaris.     

Glycopolymer-grafted polystyrene nanospheres

The synthesis and characterization of spherical sugar-containing polymer brushes consisting of PS cores onto which chains of sugar-containing polymers have been grafted via two different techniques are described. Photopolymerization in aqueous dispersion using the functional monomer MAGlc and crosslinked or non-crosslinked PS particles covered with a thin layer of photo-initiator yielded homogeneous glycopolymer brushes attached to spherical PS cores. As an alternative, ATRP was used to graft poly-(N-acetylglucosamine) arms from crosslinked PS cores. Deprotection of the grafted brushes led to water-soluble particles that act as carriers for catalytically active gold nanoparticles. These glycopolymer chains show a high affinity to adsorb WGA whereas no binding to BSA or PNA could be detected.     

Reversible pH-controlled switching of poly(methacrylic acid) grafts for functional biointerfaces

Responsive polymeric brushes of poly(methacrylic acid) (PMAA) were grafted from silicon surfaces using controlled surface-initiated atom-transfer radical polymerization (SI-ATRP). The growth kinetics of PMAA was investigated with respect to the composition of the ATRP medium by grafting the polymer in mixtures of water and methanol with different ratios. The dissociation behavior of the polymer layers was characterized by FTIR titration after incubating the polymer-grafted substrates in PBS buffer solutions with different pH values. PMAA layers show a strong pH-dependent behavior with an effective pK(a) of the bulk polymer brush of 6.5 ± 0.2, which is independent of the polymer brush thickness and methanol content of the ATRP grafting medium. The pH-induced swelling and collapse of the grafted polymer layers were quantified in real time by in situ ellipsometry in liquid environment. Switching between polymer conformations at pH values of 4 and 8 is rapid and reversible, and it is characterized by swelling factors (maximum thickness/minimum thickness) that increase with decreasing the methanol content of the SI-ATRP medium.     

Generic top-functionalization of patterned antifouling zwitterionic polymers on indium tin oxide

This paper presents a novel surface engineering approach that combines photochemical grafting and surface-initiated atom transfer radical polymerization (SI-ATRP) to attach zwitterionic polymer brushes onto indium tin oxide (ITO) substrates. The photochemically grafted hydroxyl-terminated organic layer serves as an excellent platform for initiator attachment, and the zwitterionic polymer generated via subsequent SI-ATRP exhibits very good antifouling properties. Patterned polymer coatings can be obtained when the surface with covalently attached initiator was subjected to photomasked UV-irradiation, in which the C-Br bond that is present in the initiator was broken upon exposure to UV light. A further, highly versatile top-functionalization of the zwitterionic polymer brush was achieved by a strain-promoted alkyne-azide cycloaddition, without compromising its antifouling property. The attached bioligand (here: biotin) enables the specific immobilization of target proteins in a spatially confined fashion, pointing to future applications of this approach in the design of micropatterned sensing platforms on ITO substrates.     

Synthesis of novel size exclusion chromatography support by surface initiated aqueous atom transfer radical polymerization

We report the use of aqueous surface-initiated atom transfer radical polymerization (SI-ATRP) to grow polymer brushes from a "gigaporous" polymeric chromatography support for use as a novel size exclusion chromatography medium. Poly(N,N-dimethylacrylamide) (PDMA) was grown from hydrolyzable surface initiators via SI-ATRP catalyzed by 1,1,4,7,10,10-hexamethyltriethylenetetramine (HMTETA)/CuCl. Grafted polymer was characterized semiquantitatively by ATR-FTIR and also cleaved and quantitatively characterized for mass, molecular weight, and polydispersity via analytical SEC/MALLS. The synthesis provides control over graft density and allows the creation of dense brushes. Incorporation of negative surface charge was found to be crucial for improving the initiation efficiency. As polymer molecular weight and density could be controlled through reaction conditions, the resulting low-polydispersity grafted polymer brush medium is shown to be suitable for use as a customizable size exclusion chromatography medium for investigating the principals of entropic interaction chromatography. All packed media investigated showed size-dependent partitioning of solutes, even for low graft density systems. Increasing the molecular weight of the grafts allowed solutes more access to the volume fraction in the column available for partitioning. Compared to low graft density media, increased graft density caused eluted solute probes to be retained less within the column and allowed for greater size discrimination of probes whose molecular weights were less than 10(4) kDa.     

Determination of pepsin by capillary electrophoresis using mixed polymer coated capillary with switchable properties toward protein adsorption/desorption

In this work, a simple online preconcentration method for quantitative detection of pepsin was realized by using the binary mixed polymer brushes coated capillary with switchable properties toward protein adsorption. Firstly, the binary mixed polymer brushes were prepared by grafting poly(2-methyl-2-oxazoline) and poly(4-vinylpyridine) onto the inner wall of the capillary through a polydopamine anchor. Then the coatings were characterized by X-ray photoelectron spectrometer and electroosmotic flow measurement. The results indicated that the composition of coating could be controlled by varying the feed ratio of poly(2-methyl-2-oxazoline) to poly(4-vinylpyridine) and the inner surface charge could be tuned toward the change of pH and ionic strength. The results showed that when the poly(2-methyl-2-oxazoline)/poly(4-vinylpyridine) mass ratio was 80/20, the highest online preconcentration effect was obtained and the sensitivity enhancement factor was 6.3. Moreover, satisfactory sensitivity (limit of detection: 7.5 ng/mL) and good repeatability were obtained with the online preconcentration method. The polymer-coated capillary was still stable for online preconcentration and detection of pepsin after 50 consecutive runs. Last, the proposed method was used successfully to online preconcentrate pepsin in the saliva matrix.