A technique for capillary joining in capillary electrophoresis

Summary Aspects of cracking and joining capillaries have been investigated. Capillary coupling was achieved using various methods. The most successful used hydrofluoric acid-etched capillaries to form male and female ends which were then joined together. This type of joint was used to connect sections of capillary of similar and different internal diameters with minimal loss in resolution, peak width and number of theoretical plates. (Uridine and hypoxanthine was used as a test mixture). For hypoxanthine on a 50 m/50 m etched joined capillary 10 cm from the detector window the number of theoretical plates was 96.6% of that for hypoxanthine on an unbroken capillary. Following the relative success of capillary joining, a coupled capillary flowcell (50 m/200 m) was produced and evaluated.     

毛细管电色谱分离对映体的研究进展

本文系统评述了毛细管电色谱（ＣＥＣ）分离分析对映体的发展状况,引用文献３５篇。     

毛细管电泳在火炸药研究中的应用

近年来,毛细管电泳以其高效、快速、微量的特点,在火炸药分析领域被广泛应用并迅速发展。本文从毛细管区带电泳、胶束电动毛细管色谱、毛细管电色谱、芯片毛细管电泳、微乳毛细管电动色谱这五种毛细管电泳的模式出发,结合本实验室的最新研究进展,综述毛细管电泳在火炸药研究中的应用。     

Transient electrophoretic processes in capillaries of non-uniform cross-section

The previous model of electrofocusing in a tapered capillary was extended to cover both focusing and non-focusing modes of capillary electrophoresis. The more general equation derived can be used either for tapered or for funnel-like segments of capillary for which the product of the local cross-section and the length-based separation coordinate is constant. The particular forms of the equation are used to discuss the changes in the vaRiance of a moving Gaussian zone in practically interesting cases of electrophoresis in a capillary of non-uniform cross-section.     

Capillary electrophoresis method for determination of related substances in glutathione reduced drug substance

Summary A sensitive capillary electrophoretic method using low pH with direct UV detection has been developed to evaluate the impurity profile of reduced glutathione obtained from its production and purification. The method is characterized by high detection sensitivity and selectivity. Validation has been performed with model mixtures consisting of the main known related substances—oxidized glutathione, glutamylcystein, cysteinylglycine and cysteine. The results from this study show that with respect to quantification criteria the method is acceptable for routine control of reduced glutathione for pharmaceutical application.     

Determination of pharmaceutical and personal care products in wastewater by capillary electrophoresis with UV detection

Capillary electrophoresis (CE) offers a fast and cost-effective alternative analytical technique to LC-MS/MS for separation and quantitation of many PPCP compounds in wastewater. In this study, we have developed a method that can simultaneously analyze eight different PPCP compounds in untreated wastewater (ibuprofen, triclosan, carbamazepine, caffeine, acetaminophen, sulfamethoxazole, trimethoprim, and lincomycin), using capillary electrophoresis with UV detection (CE-UV). The method detection limit (MDL) ranged from 1.6 to 68.7 ppb through solid phase extraction. The standard limit of quantification (LOQ) ranged from 0.63 to 7.72 ppm. Factors affecting separation and quantification of PPCPs, such as pH, electrophoretic potential, buffer strength, buffer type, and additives, were investigated and optimized. Water samples from two different wastewater treatment plants were collected and analyzed. The results obtained were comparable with those of LC-MS/MS. The technique developed in this study provides a low cost, simple, fast, and relatively sensitive method for determination of various PPCPs in wastewater samples for PPCP screening.     

Equilibrium height of a liquid in a gap between corrugated walls under spontaneous capillary penetration

A simple and general method is presented to calculate the equilibrium surface of a liquid that penetrates spontaneously, due to capillarity, in the gap between two vertical corrugated plates. Several properties of the equilibrium solution are discussed and the results are backed by a qualitative experiment.     

Simultaneous separation of nitrate, nitrite and ammonium by capillary electrophoresis

Summary A capillary electrophoretic method for the simultaneous separation of nitrate, nitrite and ammonium has been developed. Direct (NO₃ ⁻, NO₂ ⁻) and indirect (NH₄ ⁺) UV detection at 214 nm in conjunction with electromigration sampling from both ends of the capillary was used. Two electrolyte systems based on imidazole-sulfate (pH 3.8) and copper(II)-ethylenediamine-chloride (pH 8.0) were investigated. Optimisation of the experimental parameters such as electrolyte concentration, pH, nature of the counter-ion, was studied. The method permits excellent separation of three nitrogen species in only 4 min. The analytical performance of both electrolyte systems is compared in terms of migration time and peak area repeatability and detectability. Alkaline electrolyte shows a better overall analytical performance.     

Volume expansion and loss of sample due to initial self-heating in capillary electroseparation (CES) systems

Summary The application of a high voltage, V, in capillary electroseparations following sample injection, can cause loss of analyte if the rate of thermal expansion of the liquid in the capillary (due to ohmic heating) is more rapid than the rate of electro-migration of the slowest moving analyte into the column. We show that the limiting condition for avoidance of this undesirable effect requires that the ramp-up rate for the applied voltage is below a critical value. This critical (maximum) value is given to a good approximation by a simple formula (Eq. (30)). Limiting values of dV/dt are in the region of 1000 V s^–1 when the power loss in the capillary is around 3 W m^–1 (e.g. with a field of 30,000 V m^–1 and a current of 100 A). A detailed mathematical analysis which takes full account of the thermal dependence of key variables, indicates that thermal explosion will occur at fields above a critical value (Eq. (21)). We recommend that commercial CES instrumentation incorporates manual or software led ramp-up voltage control.     

Nanoparticle‐based capillary electroseparation of proteins in polymer capillaries under physiological conditions

Totally porous lipid‐based liquid crystalline nanoparticles were used as pseudostationary phase for capillary electroseparation with LIF detection of proteins at physiological conditions using unmodified cyclic olefin copolymer capillaries (Topas^®, 6.7 cm effective length). In the absence of nanoparticles, i.e. in CE mode, the protein samples adsorbed completely to the capillary walls and could not be recovered. In contrast, nanoparticle‐based capillary electroseparation resolved green fluorescent protein from several of its impurities within 1 min. Furthermore, a mixture of native green fluorescent protein and two of its single‐amino‐acid‐substituted variants was separated within 2.5 min with efficiencies of 400 000 plates/m. The nanoparticles prevent adsorption by introducing a large interacting surface and by obstructing the attachment of the protein to the capillary wall. A one‐step procedure based on self‐assembly of lipids was used to prepare the nanoparticles, which benefit from their biocompatibility and suspension stability at high concentrations. An aqueous tricine buffer at pH 7.5 containing lipid‐based nanoparticles (2% w/w) was used as electrolyte, enabling separation at protein friendly conditions. The developed capillary‐based method facilitates future electrochromatography of proteins on polymer‐based microchips under physiological conditions and enables the initial optimization of separation conditions in parallel to the chip development.     

Protein separation by capillary gel electrophoresis: A review

Capillary gel electrophoresis (CGE) has been used for protein separation for more than two decades. Due to the technology advancement, current CGE methods are becoming more and more robust and reliable for protein analysis, and some of the methods have been routinely used for the analysis of protein-based pharmaceuticals and quality controls. In light of this progress, we survey 147 papers related to CGE separations of proteins and present an overview of this technology. We first introduce briefly the early development of CGE. We then review the methodology, in which we specifically describe the matrices, coatings, and detection strategies used in CGE. CGE using microfabricated channels and incorporation of CGE with two-dimensional protein separations are also discussed in this section. We finally present a few representative applications of CGE for separating proteins in real-world samples.     

Simultaneous and Fast Detection of Anions in Snow Using Short Tube by Capillary Zone Electrophoresis

A capillary zone electrophoresis (CZE) method applied short-effective length of capillary (11 cm) and low separation voltage (5 kV) was developed for the fast and quantitative determination of Cl m , $ {\rm NO}_2^ - $ , $ {\rm SO}_4^{2 - } $ , $ {\rm NO}_3^ - $ , $ {\rm HCO}_3^ - $ in snow sample. Baseline separation of inorganic anions and organic anions was achieved within 55 s. Indirect absorbance detection of anions was accomplished with a chromate - based background electrolyte modified with cetyltrimethylammonium bromide (CTAB) and acetonitrile at pH 9.5. The effect of the pH, the concentration of electrolyte and modifiers on the resolution was investigated. The application of electrokinetic injection using butyric acid as internal standard created the described method fast, sensitive, and quantitative, with good relative standard deviation (RSD), for migration times from 0.1 to 0.3% and for peak areas from 1.8 to 4.0%. The limits of detection (LOD) were 0.03 mg L m 1 Cl m , 0.1 mg L m 1 $ {\rm NO}_2^ - $ , 0.07 mg L m 1 $ {\rm SO}_4^{2 - } $ , 0.08 mg L m 1 $ {\rm NO}_3^ - $ , 0.05 mg L m 1 F m , and 0.2 mg L m 1 $ {\rm HCO}_3^ - $ , respectively. Standard addition recoveries of Cl m , $ {\rm NO}_2^ - $ , $ {\rm SO}_4^{2 - } $ , $ {\rm NO}_3^ - $ , F m , and $ {\rm HCO}_3^ - $ in snow sample were between 91 and 104%. This method has been shown promising results for the determination of small anions in snow sample.     

Ultimate resolution in open tubular columns

The expression for the resolution function, R, in terms of operating parameters for open tubular columns has been extended to include inlet contributions to the peak variance. Subsequent optimization has revealed the existence of optima in the column radius, the stationary phase thickness and the diffusion coefficient ratio in the stationary and mobile phases-in addition to the well-known optimum in the flow velocity. This implies that R at optimum becomes R=f(K)L^0.6V_i^?0.2, i.e. a function only of the column length, L, the inlet volume, V_i, and the concentration distribution coefficient, K. For given K, L and V_i all other parameters such as retention time and pressure drop can thus be directly computed. The information is finally consolidated in the form of contour diagrams. The text itself is cast in the form of a science fantasy.     

毛细管区带电泳用于酶微反应器酶解条件的研究

将氨基酰化酶通过戊二醛固定在毛细管内壁,制备毛细管酶微反应器,用毛细管区带电泳对毛细管酶微反应器的酶解产物进行分离,以生成物的峰面积优化底物N-乙酰-DL-蛋氨酸的酶解条件。实验结果表明,在温度37℃的条件下,10μg/mL N-乙酰-DL-蛋氨酸磷酸盐缓冲溶液(pH7.5)以4μL/min的速度通过15 cm长的毛细管酶微反应器,具有良好的酶解效果。利用毛细管酶微反应器对底物N-乙酰-DL-蛋氨酸进行酶解,每天酶解5次,10天后酶活仅下降了8.66%,说明制备的毛细管酶微反应器具有良好的稳定性。     

毛细上升公式的推导方法及其在方形毛细管中的应用

归纳了文献中导出圆形毛细管液柱上升高度计算公式的方法;明确指出了采用受力分析导出毛细上升高度公式时,对伸展力进行简化处理的原理以及其中所隐含的基本假设;从流体力学角度对液柱上升速率和高度进行了讨论.分3种情况对液柱在方形毛细管中上升的现象进行了系统分析,得出了一些重要的结论.     

Simultaneous determination of celecoxib, meloxicam, and rofecoxib using capillary electrophoresis with surfactant and application in drug formulations

A simple and selective CE using surfactant with UV detection is described for the simultaneous determination of selective cyclooxygenase-2 inhibitors, celecoxib, meloxicam, and rofecoxib. The simultaneous analysis of celecoxib, meloxicam, and rofecoxib was performed in Tris buffer (10 mM; pH 11) with 60 mM sodium octane-sulfonate and 20% ACN as an anionic surfactant and organic modifier, respectively. Under this condition, good separation with high efficiency and the required short analysis time is achieved. The linear ranges of the method for the determination of celecoxib, meloxicam, and rofecoxib were over 5-100 microg/mL; the detection limits at 200 nm (S/N = 3; injection 3.45 kPa, 5 s) were 2, 1, and 1 microg/mL, respectively. The small amount of sample required and the expeditiousness of the procedure allow content uniformity to be determined in individual pharmaceutical products.