Numerical study of a novel microfluidic electroosmotic mixer with high and fast throughput

Abstract: In this paper the design and numerical simulation of a novel microfluidic electroosmotic micromixer with high throughput and fast mixing time is presented. Due to constant outlet flow rate, some local narrow channel geometries through the mixing channel are created to achieve fast response and shorter mixing time. This micromixer is equipped with two sets of electrode arrays separated by a narrow channel within the mixing area. The microelectrodes are embedded on the side surfaces of the microchannel. The elec… Show more

“…Similar numerical simulations for this type of electrokinetic micromixers have also been reported. (29)(30)(31) The ability to construct microelectrodes on both sides of a lab-on-a-chip channel has led to a variety of very new areas in microfluidic technology. The electrode mounted on one side of the microchannel lacks the advantages of electrodes mounted on both sides.…”

A Novel Method of Constructing an Electroosmotic Micromixer with Double-Side Electrodes for Biotechnological Applications

“…Similar numerical simulations for this type of electrokinetic micromixers have also been reported. (29)(30)(31) The ability to construct microelectrodes on both sides of a lab-on-a-chip channel has led to a variety of very new areas in microfluidic technology. The electrode mounted on one side of the microchannel lacks the advantages of electrodes mounted on both sides.…”

A Novel Method of Constructing an Electroosmotic Micromixer with Double-Side Electrodes for Biotechnological Applications

The effect of microchannel width on mixing efficiency of microfluidic electroosmotic mixer