Topic Lens: AC electrokinetically adjusted fluid flow in a microchannel used to enhance concentration to a biosensor. 3D CFD Simulation of Electrokinetic Instability in a T microchannel at threshold voltage
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General Detail Guide
AC electrokinetically adjusted fluid flow in a microchannel used to enhance concentration to a biosensor. 3D CFD Simulation of Electrokinetic Instability in a T microchannel at threshold voltage This video explores why mixing fluids in microchannels is uniquely challenging due to `laminar flow` at microscopic scales.
Topic Questions to Ask
This video explores why mixing fluids in microchannels is uniquely challenging due to `laminar flow` at microscopic scales. FLOW-3D simulation showing the mixing of the fluids coming in from two inlets.
Research Snapshot for Readers
A non-uniform potential is created on the walls of a microchannel to induce a helical flow inside the channel. The effect of swirling is induced in the Microflexis I1 chip by low frequency capacitively coupled field.
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- This video explores why mixing fluids in microchannels is uniquely challenging due to `laminar flow` at microscopic scales.
- 3D CFD Simulation of Electrokinetic Instability in a T microchannel at threshold voltage
- A non-uniform potential is created on the walls of a microchannel to induce a helical flow inside the channel.
- FLOW-3D simulation showing the mixing of the fluids coming in from two inlets.
- AC electrokinetically adjusted fluid flow in a microchannel used to enhance concentration to a biosensor.
- The effect of swirling is induced in the Microflexis I1 chip by low frequency capacitively coupled field.
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