Add to ORKGA microelectronic fluidic system has been investigated by modeling and 3D simulation of fluid flow controlled by an applied gate voltage. The simulations have helped to characterize a novel FlowFET (a fluidic Field Effect Transistor) device under fault-free conditions. The FlowFET operates by applying a voltage field from a gate electrode in the insulated side wall of a microchannel to modulate the -potential at the shear plane [1]. The change in -potential can be used to control both the magnitude and direction of the electroosmotic flow in the microchannel
We present herein a novel method of bipolar field-effect control on DC electroosmosis (DCEO) from a ...
Microfluidics or lab on chip technology, has developed itself significantly during the past 25 years...
An analysis of electric fields inside microchannels of microfluidic (MF) devices is reported in this...
A microelectronic fluidic system is studied using modeling and simulation of fluid flow controlled b...
The magnitude and direction of the electro-osmotic flow (EOF) inside a microfabricated fluid channel...
This paper describes microfluidic networks based on glass microchannels with integrated insulated ga...
Classical electrokinetic theory demonstrates that modu-lation of the ζ-potential at the shear plane ...
Classical electrokinetic theory demonstrates that modulation of the ζ-potential at the shear plane c...
We study electro osmotic shear flow in micro channels by chemically and electrically modifying the s...
Microfluidic chips are miniaturized analytical devices used in chemical, biological and medical app...
Abstract Electroosmotic flow (EOF) in a microchannel can be controlled electronically by use of an e...
ABSTRACT In this study a newly designed microchannel is proposed. This design is comprised of a chan...
AbstractThis paper presents original designs of micro-fluidic sensors. Targeted applications are pH-...
International audienceThis paper presents original designs of micro-fluidic sensors. Targeted applic...
Lab-on-chip (LOC) devices have received considerable attention in research and development for autom...
We present herein a novel method of bipolar field-effect control on DC electroosmosis (DCEO) from a ...
Microfluidics or lab on chip technology, has developed itself significantly during the past 25 years...
An analysis of electric fields inside microchannels of microfluidic (MF) devices is reported in this...
A microelectronic fluidic system is studied using modeling and simulation of fluid flow controlled b...
The magnitude and direction of the electro-osmotic flow (EOF) inside a microfabricated fluid channel...
This paper describes microfluidic networks based on glass microchannels with integrated insulated ga...
Classical electrokinetic theory demonstrates that modu-lation of the ζ-potential at the shear plane ...
Classical electrokinetic theory demonstrates that modulation of the ζ-potential at the shear plane c...
We study electro osmotic shear flow in micro channels by chemically and electrically modifying the s...
Microfluidic chips are miniaturized analytical devices used in chemical, biological and medical app...
Abstract Electroosmotic flow (EOF) in a microchannel can be controlled electronically by use of an e...
ABSTRACT In this study a newly designed microchannel is proposed. This design is comprised of a chan...
AbstractThis paper presents original designs of micro-fluidic sensors. Targeted applications are pH-...
International audienceThis paper presents original designs of micro-fluidic sensors. Targeted applic...
Lab-on-chip (LOC) devices have received considerable attention in research and development for autom...
We present herein a novel method of bipolar field-effect control on DC electroosmosis (DCEO) from a ...
Microfluidics or lab on chip technology, has developed itself significantly during the past 25 years...
An analysis of electric fields inside microchannels of microfluidic (MF) devices is reported in this...