Title of article
Flow Fractionation of Microparticles under a Dielectrophoretic Field in a Quadrupole Electrode Capillary
Author/Authors
Tsukahara، Satoshi نويسنده , , Watarai، Hitoshi نويسنده , , Yamanaka، Katsuyuki نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2001
Pages
-5660
From page
5661
To page
0
Abstract
A technique of fractionation for microparticles was proposed that utilized a unique combination of a dielectrophoretic (DEP) field generated by a quadrupole electrode and a laminar flow in a capillary of 82.5 mum in radius. The fabricated capillary possessed four platinum wires in its inside wall as a quadrupole electrode. In a nonuniform electric field generated by the quadrupole electrode, microparticles, such as polystyrene and carbon, in water experienced DEP forces in the radial direction. When a sample solution was pumped in, an ideal laminar flow perpendicular to the DEP force was formed inside the capillary. The microparticles dynamically migrated by the DEP force across the laminar flow while they were carried by the flow. A theoretical model taking the DEP force and the laminar flow pattern into account predicted the elution profiles of the single microparticles quantitatively. The elution times of the microparticles depended on the dielectric properties and the sizes of the microparticles, as well as the voltage and frequency of the applied alternating current.
Keywords
Isoflavone glycoside 6"-O-malonates , Isoflavone glycoside 6"-O-acetates , High-performance liquid chromatography-mass spectrometry (LC-MS) , Trifolium pratense , Solid-phase extraction (SPE) , red clover
Journal title
Analytical Chemistry
Serial Year
2001
Journal title
Analytical Chemistry
Record number
51932
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