Transactions of Nanjing University of Aeronautics & Astronautics
Improvement Design of Biochip Towards High Stable Bioparticle Detection Utilizing Dielectrophoresis Impedance Measurement
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Abstract:
Dielectrophoresis impedance measurement (DEPIM) is a powerful tool for bioparticle detection due to its advantages of high efficiency, label-free and low costs. However, the strong electric field may decrease the viability of the bioparticle, thus leading to instability of impedance measurement. A new design of biochip is presented with high stable bioparticle detection capabilities by using both negative dielectrophoresis (nDEP) and traveling wave dielectrophoresis (twDEP). In the biochip, a spiral electrode is arranged on the top of channel, while a detector is arranged on the bottom of the channel. The influence factors on the DEP force and twDEP force are investigated by using the basic principle of DEP, based on which, the relationship between Clausius-Mossotti (CM) factor and the frequency of electric field is obtained. The two-dimensional model of the biochip is built by using Comsol Multiphysics. Electric potential distribution, force distribution and particle trajectory in the channel are then obtained by using the simulation model. Finally, both the simulations and experiments are performed to demonstrate that the new biochip can enhance the detection efficiency and reduce the negative effects of electric field on the bioparticles.
Keywords:
Project Supported:
This work was supported by the Project of Youth Fund of National Natural Science Foundation (No.61203208), the National Natural Science Foundation of China (No.61327802).
Clc Number:
TP211.4
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