3D numerical study of induced-charge electrokinetic motion of heterogeneous particle in a microchannel |
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Authors: | Yasaman Daghighi Yandong Gao Dongqing Li |
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Affiliation: | aDepartment of Mechanical and Mechatronics Engineering, University of Waterloo,Waterloo, Ontario, Canada N2L 3G1;bDepartment of Mechanical Engineering, Vanderbilt University, Nashville, TN, 37240, USA |
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Abstract: | The transient induced-charge electrophoretic (ICEP) motion of a Janus particle in a microchannel is numerically simulated with a complete 3D multi-physics model in this paper. A half of the Janus particle is an ideally polarizable material, the other half is a dielectric material. The distribution of induced surface charge varies on the ideally polarizable hemisphere of the Janus particle. Under an externally applied electric field, these surface charges generate micro vortices in the liquid. The numerical results illustrate that the orientation of Janus particle determines the direction of particle's motion and affects the velocity of the particle. The vortices on the polarizable side of the Janus particle act like an engine and push the particle to move faster in comparison with non-polarizable particles or fully polarizable particles. The bigger Janus particles move faster than the smaller ones. In the current paper, effects of the applied electric field, size of the particle, zeta potential of the non-polarizable part on the motion of Janus particle are also studied. |
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Keywords: | Janus particles Micro vortex Induced-charge Transient electrophoresis Microchannel |
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