Reversed-phase liquid chromatography on a microchip with sample injector and monolithic silica column

Ishida A; Yoshikawa T; Natsume M; Kamidate T

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Reversed-phase liquid chromatography on a microchip with sample injector and monolithic silica column

机译：带有进样器和整体硅胶柱的微芯片上的反相液相色谱

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In micro total analysis systems, liquid chromatography (LC) works under pressure-driven flow is the essential analysis component. There were not, however, much works on microchip LC. Here we developed a microchip for reversed-phase LC using porous monolithic silica. The chip consisted of a double T-shaped injector and a similar to 40-cm serpentine separation channel. The octadecyl-modified monolithic silica was prepared in the specified part of the channel on the microchip using sol-gel process. Furthermore, the effect of geometry of turn sections on band dispersion at turns was examined under pressure-driven flow. High separation efficiencies of 15,000-18,000 plates/m for catechins were obtained using the LC chip. (c) 2006 Elsevier B.V. All rights reserved.

机译：在微量总量分析系统中，液相色谱（LC）在压力驱动的流量下工作是必不可少的分析组件。但是，关于微芯片LC的工作并不多。在这里，我们开发了一种使用多孔整体硅胶的反相LC微芯片。该芯片由一个双T形注射器和一个类似于40厘米的蛇形分离通道组成。使用溶胶-凝胶法在微芯片上通道的指定部分中制备了十八烷基改性的整体式二氧化硅。此外，在压力驱动的流动条件下，研究了转弯段的几何形状对转弯带扩散的影响。使用LC芯片，儿茶素的分离效率高达15,000-18,000板/ m。（c）2006 Elsevier B.V.保留所有权利。

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《Journal of chromatography, A: Including electrophoresis and other separation methods》 |2006年第2期|共9页
作者
Ishida A; Yoshikawa T; Natsume M; Kamidate T;
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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
chip technology; microchip LC; monolithic silica; pressure-driven flow; turn geometry; catechins; TOTAL ANALYSIS SYSTEMS; ON-CHIP INTEGRATION; HIGH-EFFICIENCY; FLOW-CONTROL; ELECTROPHORESIS; PRESSURE; PERFORMANCE; GEOMETRY; DEVICES; SEPARATIONS;

机译：芯片技术;微芯片LC;整体硅胶;压力驱动的流动;回转几何形状;儿茶素;总分析系统;芯片集成;高效;流量控制;电泳;压力;性能;几何尺寸;设备;分离;

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专利

1. Reversed-phase liquid chromatography on a microchip with sample injector and monolithic silica column [J] . Ishida A, Yoshikawa T, Natsume M, Journal of chromatography, A: Including electrophoresis and other separation methods . 2006,第1a2期

机译：带有进样器和整体硅胶柱的微芯片上的反相液相色谱
2. Rapid and simultaneous determination of trifluoroacetate, trifluoromethanesulfonate, tetrafluoroborate, and hexafluorophosphate organic and inorganic anions of ionic liquids by ion-pair chromatography using a reversed-phase silica-based monolithic column and conductivity detection [J] . LiS., YuH., LiuY., Journal of liquid chromatography and related technologies . 2013,第9a12期

机译：使用反相二氧化硅的整体柱和电导检测，通过离子对色谱法快速和同时测定三氟乙酸酯，三氟甲磺酸盐，四氟硼酸盐和离子液体的无机阴离子
3. Rapid determination of trifluoromethanesulfonate and P-toluenesulfonate by ion-pair chromatography using a reversed-phase silica-based monolithic column: Application to the analysis of ionic liquids [J] . Li S., Yu H., Ma Y. Chromatographia . 2011,第11a12期

机译：反相硅基整体柱通过离子对色谱法快速测定三氟甲磺酸盐和对甲苯磺酸盐：在离子液体分析中的应用
4. Preparation and Evaluation of Monolithic Silica Capillary Column for Reversed-phase Capillary Liquid Chromatography [C] . YaShun Chen, Li Jia, Wei Liu, International Conference on Information Science, Automation and Material System . 2012

机译：反相毛细管液相色谱法的单片二氧化硅毛细管柱的制备及评价
5. An invesitgation of a novel monolithic chromatography column, silica colloidal crystal packed columns. [D] . Malkin, Douglas Scott. 2010

机译：新型整体色谱柱，硅胶胶体晶体填充柱的研究。
6. P61-S Multidimensional Liquid Chromatography of Proteins Using Monolithic Weak Anion Exchange and Reversed-Phase Columns [O] . E. Sneekes, R. van Ling, B. de Haan, 2007

机译：使用整体式弱阴离子交换和反相柱的蛋白质的P61-S多维液相色谱
7. Development of a new in-line coupling of a miniaturized boronate affinity monolithic column with reversed-phase silica monolithic capillary column for analysis of cis-diol-containing nucleoside compounds [O] . Maria Betzabeth Espina-Benitez, Jérôme Randon, Claire Demesmay, 2019

机译：用反相二氧化硅整体毛细管进行小型化硼酸盐亲和整体柱的新型型硼酸酯整体圆柱形的开发，用于分析含CIS-DIOL的核苷化合物
8. Selectivity in the Base-Catalyzed Hydrolysis of p-Nitrophenyl Esters within a Reversed-Phase Liquid Chromatography Column. (Reannouncement with New Availability Information). [R] . Jaeger, D. A. 1988

机译：在反相液相色谱柱中碱催化水解对硝基苯酯的选择性。（重新公布新的可用性信息）。

Reversed-phase liquid chromatography on a microchip with sample injector and monolithic silica column

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