%0 Journal Article %T Blood Particle Separation Using Dielectrophoresis in A Novel Microchannel: A Numerical Study %J Cell Journal (Yakhteh) %I Royan Institute, Iranian Academic Center for Education Culture and Research (ACECR) %Z 2228-5806 %A Zahedi Siani, Omid %A Sojoodi, Mahdi %A Zabetian Targh, Mohammad %A Movahedin, Mansoureh %D 2019 %\ 10/01/2019 %V 22 %N 2 %P 218-226 %! Blood Particle Separation Using Dielectrophoresis in A Novel Microchannel: A Numerical Study %K Biomedical applications %K Blood cells %K Microfluidics %R 10.22074/cellj.2020.6386 %X Objective: We present a four-branch model of the dielectrophoresis (DEP) method that takes into consideration the inherent properties of particles, including size, electrical conductivity, and permittivity coefficient. By using this model, bioparticles can be continuously separated by the application of only a one-stage separation process.Materials and Methods: In this numerical study, we based the separation process on the differences in the particle sizes. We used the various negative DEP forces on the particles caused by the electrodes to separate them with a high efficiency. The particle separator could separate blood cells because of their different sizes.Results: Blood cells greater than 12 μm were guided to a special branch, which improved separation efficiency because it prevented the deposition of particles in other branches. The designed device had the capability to separate blood cells with diameters of 2.0 μm, 6.2 μm, 10.0 μm, and greater than 12.0 μm. The applied voltage to the electrodes was 50 V with a frequency of 100 kHz.Conclusion: The proposed device is a simple, efficient DEP-based continuous cell separator. This capability makes it ideal for use in various biomedical applications, including cell therapy and cell separation, and results in a throughput increment of microfluidics devices %U https://www.celljournal.org/article_251022_9b328cfabfcad5a57100b5308b6beade.pdf