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阐述了高效毛细管电泳电化学检测器(包括电导、电势和安培检测)的研究现状,重点是检测器的研制及接口的制作技术。对各种电化学检测器的应用情况也进行了总结。展望了高效毛细管电泳电化学检测的发展前景。 相似文献
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毛细管电泳和火焰光度检测器的联用研究 总被引:2,自引:0,他引:2
研究了毛细管电泳与火焰光度检测器的联用技术及其应用。有机磷农药经毛细管电泳分离后,流出液被引入气相色谱的火娄光度检测器进行特效检测,毛细管电泳的接地电极接口采用毛细管裂缝处裹醋酸纤维膜的方法,而毛细管电泳和火焰光度检测器的接口则借用了气相色谱的进样口。 相似文献
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郭伟强 《分析测试技术与仪器》1996,2(4):9-19
对毛细管电泳的光学检测器作了简要评述。根据所采用的检测原理。光源检测器可分为紫外检测器,激光诱导荧光检测器、化学肆光检测器、荷耦合器件检测器、折射指数检测器等许多种类,具有简单方便、使用广泛,信息量较大等特点,是一类有良好诉检测器。 相似文献
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毛细管电泳化学发光在线检测 总被引:3,自引:0,他引:3
评论了毛细管区带电泳化学发光检测联用技术这一新兴的研究领域。化学发光检测具有背景低、热力学范围宽、灵敏度高的优点,适于毛细管电泳柱后微量样品的在线检测。论述了该检测器与毛细管电泳联用的接口和应用状况。 相似文献
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摘要开发出一种新型电化学检测器,该检测器具有噪声低、基线漂移小、检测限低、整体体积小及便于现场使用等优点.在集成ITO电极的PDMS/玻璃毛细管电泳芯片上,利用多巴胺标准样品对该检测器的性能进行了评价. 相似文献
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综述了近年来毛细管电泳在火炸药领域的应用现状,包括各种分离模式、检测器以及毛细管电泳芯片的应用,并对该技术在火炸药分析中的应用前景作了展望,提出了新的发展方向。引用文献45篇。 相似文献
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A capillary zone electrophoresis (CZE) approach was developed for the determination of hexamethylene diisocyanate (HDI) monomer and HDI-based oligomers. A comparison of CZE with high performance liquid chromatography (HPLC) indicates that the CZE separation completely isolates isocyanates from excess solvent, derivatizing reagent and pigment while offering a fivefold increase in sensitivity. The CZE approach allows for the quantification of HDI monomer and oligomer within a 1 min time window under the run conditions selected. For the determination of HDI-based oligomer, provided that the relative response with respect to HDI monomer is calculated, there is no significant difference (p < 0.05, n = 10) in the isocyanate air concentration when using either HPLC or CZE. The results are significant because they indicate that CZE has advantages for the determination of both HDI-based oligomer and HDI monomer generated during spray-painting operations. 相似文献
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Palmer ME Smith RF Chambers K Tetler LW 《Rapid communications in mass spectrometry : RCM》2001,15(3):224-231
The use of capillary zone electrophoresis (CZE) and capillary zone electrophoresis/mass spectrometry (CZE/MS) has been demonstrated, in principle, for the separation of nicotine and nicotine metabolites. The buffer system developed for separation and detection by CZE/UV was modified for use in CZE/MS analysis. Several of the metabolites are isobaric and tandem mass spectrometric (MS/MS) techniques have been used to differentiate such analytes. 相似文献
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A scale-up of analytical capillary zone electrophoresis (CZE) to preparative free-flow electrophoresis (FFE) is described. FFE allows fractionations based on charge densities in larger amounts than in CZE, enabling further off-line analysis of the fractions. Model compounds (carboxylic acids and polystyrene sulfonates) showed a similar behavior in FFE as in CZE. Diffusion and electrodynamic distortion effects are more pronounced in FFE than in CZE. A soil fulvic acid was analyzed by CZE and fractionated by FFE. A comparison of the FFE fractions with CZE measurements of the same sample using the effective mobility scale showed good agreement of the two methods. 相似文献
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Equations and theoretical models for MEKC separation selectivity (α(MEKC) ) were established to explain a change in separation and electrophoretic mobility order of fully charged analytes, in which α(MEKC) is related to the dimensionless values of mobility selectivity in CZE (α(CZE)) and retention selectivity (α(k)) in MEKC, and where α(CZE) and α(k) are defined as the ratio of electrophoretic mobility in CZE and the ratio of retention factor (k) in MEKC for two charged analytes, respectively. Using four alkylparabens as test analytes, excellent agreement was found between the observed α(MEKC) and the proposed α(MEKC) models of test analytes in MEKC over a wide range of SDS concentrations and values of k. For example, in comparison with CZE separation of charged analytes, MEKC separation can enhance separation selectivity up to the maximum value when the selectivity ratio (ρ) is greater than 1.0 (ρ=α(k)/α(CZE)), while lower separation selectivity is obtained with ρ<1.0 (α(CZE) >α(k) >1). 相似文献
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The separation of human serum globulins into individual components was investigated by capillary zone electrophoresis (CZE) using a linear polyacrylamide-coated capillary at pH 7.4. Prior to CZE analysis of globulin components present in serum, it was found that it was necessary to remove albumin. Preparation of albumin-depleted human serum with a HiTrap Blue column allowed the detection of alpha- and beta-globulin components as a series of peaks. Almost all the peaks, both narrow and broad, observed in CZE analysis could be assigned to six globulin components (alpha1-acid-glycoprotein, alpha1 -antitrypsin, haptoglobin, alpha2-macroglobulin, Gc-globulin, and transferrin) by using the technique of antibody-based indirect detection. The CZE results, obtained from serum preparations from three healthy adults and six patients, showed that the CZE system might be capable of detecting qualitative differences among individuals with regard to individual globulin components. 相似文献
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The combination of capillary isotachophoresis (ITP) and capillary zone electrophoresis (CZE) in the column-coupling configuration
has been optimized in a mode in which the background electrolyte employed in the CZE step was different from the leading and
terminating electrolytes of the ITP step. The optimum composition of the electrolyte system was 0.01 M HCl, 0.02 M IMI, 0.2%
HEC, pH 7.2 (leading electrolyte), 0.01 M HEPES, pH 8.2 (terminating electrolyte), and 25 mM MES, 50 mM TRIS, 30 mM boric
acid, 0.2% HEC, pH 8.3 (background electrolyte). All solutions contained 20% methanol. The timing of the transfer of isotachophoretically
stacked analyte zones into the CZE column was also optimized. An ITP–CZE method with UV detection at 270 nm was developed
for separation of nine phenolic acids (protocatechuic, syringic, vanillic, cinnamic, ferulic, caffeic, ρ-coumaric, chlorogenic, and gentisic acids) in a model mixture and used for assay of some of these acids in a methanolic extract
of herba epilobi. Application of ITP–CZE resulted in 100-fold better sensitivity than conventional CZE; limits of detection
ranged between 10 and 60 ng mL−1. When MES–TRIS–borate-based buffer, pH 8.3, was used in the CZE separation step the linearity of the ITP–CZE response was
satisfactory (correlation coefficients were from 0.9937 to 0.9777). Repeatability was also satisfactory (RSD values ranged
between 0.77% and 1.28% for migration times and between 1.65% and 13.69% for peak area).
Revised: 23 March and 27 April 2006 相似文献
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An integrated on-line system is developed for DNA sequencing at the nanoliter scale. The technique involves the use of a nanoreactor for small-volume cycle-sequencing reaction, capillary zone electrophoresis (CZE) for purification of the sequencing fragments, and capillary gel electrophoresis (CGE) for separation of the purified DNA fragments. The nanoreactor and CZE are integrated into one capillary, where a 100-nl dye-labeled terminator cycle-sequencing reaction is carried out followed by CZE to separate excess dye-labeled terminators from the sequencing fragments. On-line electrokinetic injection of the purified DNA fragments into the CGE system is accomplished at a small-volume tee connector by which the CZE capillary is interfaced to the CGE system. The utility of the system is demonstrated in sequencing nanoliter volumes of single-stranded DNA (M13mp18) and double-stranded DNA (pGEM). The use of voltage to drive both CZE and CGE makes it feasible for automation and future adaptation of the whole system to a microchip. 相似文献
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In the complex neuronal network, chemical messengers like neuropeptides play a key role in signaling. To understand the mechanism of signaling, it is necessary to analyze the levels of neuropeptides from biological sources, which is important for neuroscience research. In the present work, a detailed investigation of the capillary zone electrophoresis (CZE) method was carried out to detect and quantify Substance P (SP), a bioactive neuropeptide, in rat brain tissues. The method involves specifically, a combination of solid phase extraction and immunoprecipitation prior to the CZE quantification. In this procedure, antibodies are used to capture the analyte of interest before the separation by CZE. Different separation parameters like buffer type, concentration, pH and applied voltage were the steps taken to study and achieve high efficiency CZE separation. CZE analysis was performed in an untreated fused-silica capillary column (35 cm×75 μm i.d.) and 185 nm wavelength using 100 mM phosphate buffer (pH 2.5) as a separation buffer. Electrophoresis in acidic mode and successive washing procedures solved the adsorption problem. The method provides a rapid analysis time of less than 15 min with 3.91% of RSD. Simultaneously, SP was quantified by Matrix Assisted Laser Desorption Ionization-Time of Flight-Mass Spectrometry (MALDI-TOF-MS) and compared with CZE data. Starting from milligram amounts of brain tissue, the method allowed the detection of low picomole amounts of SP and the combined use of CZE and MALDI-TOF-MS was a success in quantification in this study. 相似文献
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A new CZE method was developed and compared with HPLC for the determination of (E)-10-hydroxy-2-decenoic acid (10-HDA) in royal jelly (RJ) samples of different geographical origin. The results obtained with the CZE method were highly correlated with those of HPLC (p < 0.01). Under optimized conditions, CZE employed minimal amounts of 50 mM tetraborate buffer as BGE, without the addition of organic solvents, EOF or pH modifiers. The CZE method showed a wide linear response range (0.006-0.808 mg 10-HDA/mL), a good sensitivity (LOD and LOQ were 0.002 and 0.004 mg/mL, respectively) and a satisfactory instrumental repeatability with respect to migration time and peak area (RSD% less than 1.0 and 2.0% on migration time for intra- and interday assay, respectively and less than 2.0 and for 4.0% on peak area for intra- and interday assay, respectively). The 10-HDA content in RJ ranged from 0.8 to 3.2 g/100 g of RJ and a significant difference (p < 0.05) was found between the Italian and extra-European average values: 2.5 and 1.6 g/100 g of RJ, respectively, according to the CZE data. The possibility of application of CZE for routine analyses on RJ and RJ based products to verify their authenticity is highlighted here. 相似文献