Induced-charge electrophoresis near a wall

Induced‐charge electrophoresis (ICEP) has mostly been analyzed for asymmetric particles in an infinite fluid, but channel walls in real systems further break symmetry and lead to dielectrophoresis (DEP) in local field gradients. Zhao and Bau (Langmuir 2007, 23, 4053) predicted that a metal (ideally...

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Bibliographic Details
Published in:Electrophoresis 2011-02, Vol.32 (5), p.614-628
Main Authors: Kilic, Mustafa Sabri, Bazant, Martin Z
Format: Article
Language:English
Subjects:
Asymmetry
Channels
Colloids
Computer Simulation
Cylinders
Direct current
Electromagnetic Fields
Electrophoresis
Hydrodynamics
Induced-charge electrophoresis
Janus
Janus particles
Models, Chemical
Static Electricity
Three dimensional
Torque
Wall interactions
Walls
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Summary:Induced‐charge electrophoresis (ICEP) has mostly been analyzed for asymmetric particles in an infinite fluid, but channel walls in real systems further break symmetry and lead to dielectrophoresis (DEP) in local field gradients. Zhao and Bau (Langmuir 2007, 23, 4053) predicted that a metal (ideally polarizable) cylinder is repelled from an insulating wall in a DC field. We revisit this problem with an AC field and show that attraction to the wall sets in at high frequency and leads to an equilibrium distance, where DEP balances ICEP, although, in three dimensions, a metal sphere is repelled from the wall at all frequencies. This conclusion, however, does not apply to asymmetric particles. Consistent with the experiments of Gangwal et al. (Phys. Rev. Lett. 2008, 100, 058302), we show that a metal/insulator Janus particle is always attracted to the wall in an AC field. The Janus particle tends to move toward its insulating end, perpendicular to the field, but ICEP torque rotates this end toward the wall. Under some conditions, the theory predicts steady translation along the wall, perpendicular to the field, at an equilibrium tilt angle around 45°, consistent with the experiments, although improved models are needed for a complete understanding of this phenomenon.
ISSN:0173-0835
1522-2683
1522-2683
DOI:10.1002/elps.201000481