Separation technique based on electrophoresis, chromatography and magnetism phenomena: the migration time and peak broadening

Shmykov Alexey Yu.; Bulyanitsa Anton L.; Kurochkin Vladimir E.; Timerbaev Andrei R.

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Separation technique based on electrophoresis, chromatography and magnetism phenomena: the migration time and peak broadening

机译：基于电泳的分离技术，色谱法和磁化现象：迁移时间和峰拓宽

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Magnetic nanoparticles incorporated into the surface layer of a capillary column can produce an electromagnetic field upon applying the electric field, which would affect the separation of charged analytes. The main peak parameters, migration time and width at half height were evaluated, which are important to development of a novel separation technique based on the electrophoresis, chromatography, and magnetism.

机译：掺入毛细管塔的表面层中的磁性纳米颗粒可以在施加电场时产生电磁场，这会影响带电分析物的分离。评估了半高度的主峰参数，迁移时间和宽度，这对于基于电泳，色谱法和磁性的新型分离技术的开发是重要的。

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《Mendeleev Communications》 |2019年第5期|共2页
作者
Shmykov Alexey Yu.; Bulyanitsa Anton L.; Kurochkin Vladimir E.; Timerbaev Andrei R.;
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作者单位

Russian Acad Sci Inst Analyt Instrumentat St Petersburg 190103 Russia;

Russian Acad Sci Inst Analyt Instrumentat St Petersburg 190103 Russia;

Russian Acad Sci Inst Analyt Instrumentat St Petersburg 190103 Russia;

Russian Acad Sci VI Vernadsky Inst Geochem &

Analyt Chem Moscow 119991 Russia;

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正文语种 eng
中图分类化学;
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1. Separation technique based on electrophoresis, chromatography and magnetism phenomena: the migration time and peak broadening [J] . Shmykov Alexey Yu., Bulyanitsa Anton L., Kurochkin Vladimir E., Mendeleev Communications . 2019,第5期

机译：基于电泳的分离技术，色谱法和磁化现象：迁移时间和峰拓宽
2. Combination of electrophoresis, chromatography, and magnetism in a single separation technique: Part 1: a first theoretical evaluation [J] . Alexey Y. Shmykov, Anton L. Bulyanitsa, Andrei R. Timerbaev Journal of liquid chromatography and related technologies . 2018,第1a4期

机译：单分离技术中电泳，色谱和磁性的组合：第1部分：第一个理论评价
3. Evaluation of peak overlap in migration-time distributions determined by organelle capillary electrophoresis: Type-II error analogy based on statistical-overlap theory [J] . Davis JM, Arriaga EA Journal of chromatography, A: Including electrophoresis and other separation methods . 2009,第35期

机译：通过细胞器毛细管电泳测定迁移时间分布中的峰重叠：基于统计重叠理论的II型误差类比
4. A COMPARISON OF LIQUID CHROMATOGRAPHY (LC) AND DIFFERENTIAL MOBILITY SPECTROMETRY (DMS) AS SEPARATIONS TECHNIQUES FOR ACYLCARNITINE ANALYSIS [C] . Nicholas B. Vera, Amol Kafle, Evan Pannkuk, ASMS Conference on Mass Spectrometry and Allied Topics . 2015

机译：液相色谱（LC）和差分迁移率光谱（DMS）作为酰基碱分析的分离技术的比较
5. Novel Injection Techniques to Enable Fast, High Peak Capacity Gas Chromatography Separations [D] . Wilson, Ryan Bradley 2012

机译：新颖的进样技术可实现快速，高峰容量的气相色谱分离
6. Evaluation of Peak Overlap in Migration-Time Distributions Determined by Organelle Capillary Electrophoresis: Type-II Error Analogy Based on Statistical-Overlap Theory [O] . Joe M. Davis, Edgar A. Arriaga -1

机译：峰重叠由细胞器毛细管电泳法测定迁移时间分布的评价：基于统计重叠理论II型错误类比
7. Evaluation of peak overlap in migration-time distributions determined by organelle capillary electrophoresis: Type-II error analogy based on statistical-overlap theory [O] . Joe M. Davis, Edgar A. Arriaga 2009

机译：通过细胞器毛细管电泳确定的迁移时间分布中峰值重叠的评价：基于统计重叠理论的II型误差类比
8. Methods development for separation of inorganic anions, organic acids and bases, and neutral organic compounds by ion chromatography and capillary electrophoresis [R] . Li, J. 1999

机译：方法开发通过离子色谱和毛细管电泳分离无机阴离子，有机酸和碱，以及中性有机化合物

Separation technique based on electrophoresis, chromatography and magnetism phenomena: the migration time and peak broadening

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