HPL-2009-214
Electrohydrodynamic modeling and its applications to microfluidic devices - Zeng, Jun
Keyword(s): Modeling, lab-on-a-chip, digital microfluidics, multi-physics simulation, electrohydrodynamics, eleclrowetting, dielectrophoresis, electrophoresis
Abstract: Since the inception of microfluidics, the electric force has been exploited as one of the leading mechanisms for driving and controlling the movement of the operating fluid (electrohydrodynamics) and the charged suspensions (electrokinetics). Electric force has an intrinsic advantage in miniaturized ...
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