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Dielectrophoresis velocities response on tapered electrode profile: simulation and experimental.

Authors :
Abd Samad, Muhammad Izzuddin
Buyong, Muhamad Ramdzan
Kim, Shyong Siow
Yeop Majlis, Burhanuddin
Source :
Microelectronics International; 2019, Vol. 36 Issue 2, p45-53, 9p
Publication Year :
2019

Abstract

Purpose: The purpose of this paper is to use a particle velocity measurement technique on a tapered microelectrode device via changes of an applied voltage, which is an enhancement of the electric field density in influencing the dipole moment particles. Polystyrene microbeads (PM) have used to determine the responses of the dielectrophoresis (DEP) voltage based on the particle velocity technique. Design/methodology/approach: Analytical modelling was used to simulate the particles' polarization and their velocity based on the Clausius–Mossotti Factor (CMF) equation. The electric field intensity and DEP forces were simulated through the COMSOL numerical study of the variation of applied voltages such as 5 V p-p, 7 V p-p and 10 V p-p. Experimentally, the particle velocity on a tapered DEP response was quantified via the particle travelling distance over a time interval through a high-speed camera adapted to a high-precision non-contact depth measuring microscope. Findings: The result of the particle velocity was found to increase, and the applied voltage has enhanced the particle trajectory on the tapered microelectrode, which confirmed its dependency on the electric field intensity at the top and bottom edges of the electrode. A higher magnitude of particle levitation was recorded with the highest particle velocity of 11.19 ± 4.43 µm/s at 1 MHz on 10 V p-p, compared to the lowest particle velocity with 0.62 ± 0.11 µm/s at 10 kHz on 7 V p-p. Practical implications: This research can be applied for high throughout sensitivity and selectivity of particle manipulation in isolating and concentrating biological fluid for biomedical implications. Originality/value: The comprehensive manipulation method based on the changes of the electrical potential of the tapered electrode was able to quantify the magnitude of the particle trajectory in accordance with the strong electric field density. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
13565362
Volume :
36
Issue :
2
Database :
Complementary Index
Journal :
Microelectronics International
Publication Type :
Academic Journal
Accession number :
136565353
Full Text :
https://doi.org/10.1108/MI-06-2018-0037