ELECTROOSMOSIS IN CAPILLARY ZONE ELECTROPHORESIS WITH NON-UNIFORM ZETA POTENTIAL

Potocek B.; Kenndler E.; Stedry M.; Gas B.

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ELECTROOSMOSIS IN CAPILLARY ZONE ELECTROPHORESIS WITH NON-UNIFORM ZETA POTENTIAL

机译：非均匀ZETA电位的毛细管区带电泳中的电渗

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The influence of the longitudinally non-uniform zeta potential on processes in capillary zone electrophoresis was studied. The velocity field of the electroosmotic flow in capillary tubes is modelled by the Navier-Stokes equations. Their stationary solution represents convective transport of a solute which is taken into account in the continuity equation for the concentration distribution. All equations are studied numerically. The results represent the time evolution of initial forms of sample peaks. These are presented in graphical form for several cases of zeta potentials which are either instructive or closely related to situations encountered in practice. It is shown that plug-like flow in the capillary cannot be expected and that a non-uniform zeta potential generally leads to significant dispersion of peaks. [References: 24]

机译：研究了纵向不均匀的ζ电势对毛细管区带电泳过程的影响。毛细管中电渗流的速度场通过Navier-Stokes方程建模。它们的固定解表示溶质的对流输运，在浓度分布的连续性方程中考虑了溶质的对流输运。所有方程都是数值研究的。结果代表样品峰的初始形式的时间演变。这些以图形形式表示了zeta电位的几种情况，这些情况具有指导意义或与实践中遇到的情况密切相关。结果表明，无法预期毛细管中会出现类似塞子的流动，并且不均匀的ζ电势通常会导致峰的明显分散。 [参考：24]

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《Journal of chromatography, A: Including electrophoresis and other separation methods》 |1995年第1期|共12页
作者
Potocek B.; Kenndler E.; Stedry M.; Gas B.;
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正文语种 eng
中图分类仪器分析法（物理及物理化学分析法）;
关键词
Liquid-chromatography; Flow; Field; Dispersion; Efficiency;

机译：液相色谱流动场分散效率;

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专利

1. ELECTROOSMOSIS IN CAPILLARY ZONE ELECTROPHORESIS WITH NON-UNIFORM ZETA POTENTIAL [J] . Potocek B., Kenndler E., Stedry M., Journal of chromatography, A: Including electrophoresis and other separation methods . 1995,第1期

机译：非均匀ZETA电位的毛细管区带电泳中的电渗
2. Formation of a reverse parabolic flow profile with electroosmosis in capillary zone electrophoresis and the behavior of zone progress related to the application of a pulsed electric field [J] . Takao Tsuda, Shinya Kitagawa, Rajeev Dadoo 分析化学 . 1997,第6期

机译：毛细管区带电泳中电渗形成的反向抛物线流动轮廓以及与脉冲电场的施加相关的区域进展行为
3. CONTRIBUTION OF THE ELECTROOSMOTIC FLOW TO PEAK BROADENING IN CAPILLARY ZONE ELECTROPHORESIS WITH UNIFORM ZETA POTENTIAL [J] . Gas B., Kenndler E., Stedry M. Journal of chromatography, A: Including electrophoresis and other separation methods . 1995,第1期

机译：均相Zeta电位对毛细管区带电泳中电渗流对峰爆的贡献。
4. Theoretical relation between the tube zeta potential and the background electrolyte composition in capillary electrophoresis [C] . C. L. A. Berli, Julio A. Deiber, M. V. Piaggio International Conference on Surface and Colloid Science . 2004

机译：毛细管电泳管Zeta电位与背景电解质组成的理论关系
5. Direct control of electroosmosis in capillary electrophoresis by using a radial electric potential gradient [D] . Wu, Chin-Tiao 1993

机译：通过使用径向电势梯度直接控制毛细管电泳中的电渗
6. Single Shot Capillary Zone Electrophoresis-Mass Spectrometry Produces Over 27000 Peptide and nearly 4400 Protein Identifications by Combining a Very Low-Electroosmosis Coated Capillary a Third-Generation Electrokinetically-Pumped Sheath-Flow Nanospray Interface an Orbitrap Fusion Lumos Tribid Mass Spectrometer and an Advanced Peak Determination Algorithm [O] . Zhenbin Zhang, Alexander S. Hebert, Michael S. Westphall, -1

机译：单发毛细管区带电泳质谱通过结合极低电渗涂膜的毛细管第三代电动泵鞘流纳米喷雾接口Orbitrap Fusion Lumos Tribid质谱仪和一个质谱仪可产生超过27000个肽和近4400个蛋白质鉴定先进的峰确定算法
7. Production of Over 27 000 Peptide and Nearly 4400 Protein Identifications by Single-Shot Capillary-Zone Electrophoresis–Mass Spectrometry via Combination of a Very-Low-Electroosmosis Coated Capillary, a Third-Generation Electrokinetically-Pumped Sheath-Flow Nanospray Interface, an Orbitrap Fusion Lumos Tribrid Mass Spectrometer, and an Advanced-Peak-Determination Algorithm [O] . Zhenbin Zhang, Alexander S. Hebert, Michael S. Westphall, 2018

机译：通过单次毛细管区电泳 - 质谱法通过组合产生超过27 000份肽和近4400蛋白鉴定，通过非常低电渗涂层毛细管，第三代电动泵浦鞘流纳米普通接口，围绕熔化融合Lumos Tribrid质谱仪和先进峰值测定算法

ELECTROOSMOSIS IN CAPILLARY ZONE ELECTROPHORESIS WITH NON-UNIFORM ZETA POTENTIAL

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