This paper sets to demonstrate a modeling of electrokinetic mixing employing electroosmotic stationary and time-dependent microchannel using alternate zeta patches on the lower surface of the micromixer in a lab on chip microfluidic device. Electroosmotic flow is amplified using different 2D and 3D model designs with alternate and geometric zeta potential values such as 25, 50, and 100 mV, respectively, to achieve high concentration mixing in the electrokinetically-driven microfluidic system. The enhancement of electrokinetic mixing is studied using Finite Element Modeling, and simulation workflow is accomplished with defined integral steps. It can be observed that the presence of alternate zeta patches can help inducing microvortex flows i...
The purpose of this study is presenting an active micromixer, which is based on AC electro-osmotic f...
ABSTRACT In this study a newly designed microchannel is proposed. This design is comprised of a chan...
Micromixing is a crucial process within microfluidic systems such as micro total analysis systems (?...
This dissertation summarize a modeling of electrokinetic mixing employing electro-osmotic stationary...
One approach to achieve a homogeneous mixture in microfluidic systems in the quickest time and short...
This paper presents the design and numerical simulation of a T-shape microfluidic electroosmotic mic...
The applications of electrokinetics in the development of microfluidic devices have been widely attr...
This paper is concerned with the optimization of an electrokinetic micromixer suitable for Lab-on-Ch...
A T-shaped micromixer featuring electroosmotic flow with heterogeneous charged surface patches on th...
An electrokinetically-driven micro mixer with a special surface-charge pattern was designed, fabrica...
Numerical analyses of the recently proposed micro mixer based on periodic electroosmotic flow throug...
This paper reports enhancement of mixing process via electroosmotic phenomenon using a microelectrod...
Microfluidic chips are miniaturized analytical devices used in chemical, biological and medical app...
Microfluidic platforms capable of complex on-chip processing and liquid handling enable a wide varie...
Electroosmotic flow with electrokinetic effects is the primary method of fluid handling in micro-tot...
The purpose of this study is presenting an active micromixer, which is based on AC electro-osmotic f...
ABSTRACT In this study a newly designed microchannel is proposed. This design is comprised of a chan...
Micromixing is a crucial process within microfluidic systems such as micro total analysis systems (?...
This dissertation summarize a modeling of electrokinetic mixing employing electro-osmotic stationary...
One approach to achieve a homogeneous mixture in microfluidic systems in the quickest time and short...
This paper presents the design and numerical simulation of a T-shape microfluidic electroosmotic mic...
The applications of electrokinetics in the development of microfluidic devices have been widely attr...
This paper is concerned with the optimization of an electrokinetic micromixer suitable for Lab-on-Ch...
A T-shaped micromixer featuring electroosmotic flow with heterogeneous charged surface patches on th...
An electrokinetically-driven micro mixer with a special surface-charge pattern was designed, fabrica...
Numerical analyses of the recently proposed micro mixer based on periodic electroosmotic flow throug...
This paper reports enhancement of mixing process via electroosmotic phenomenon using a microelectrod...
Microfluidic chips are miniaturized analytical devices used in chemical, biological and medical app...
Microfluidic platforms capable of complex on-chip processing and liquid handling enable a wide varie...
Electroosmotic flow with electrokinetic effects is the primary method of fluid handling in micro-tot...
The purpose of this study is presenting an active micromixer, which is based on AC electro-osmotic f...
ABSTRACT In this study a newly designed microchannel is proposed. This design is comprised of a chan...
Micromixing is a crucial process within microfluidic systems such as micro total analysis systems (?...