Add to ORKGAbstract:- This paper presents a numerical study of particle trapping using quadrupole microfludic dielectrophoretic device. By taking into account the dielectrophoreis, viscous drag, the trajectory of particles flowing through the quadrupole device was obtained. Simulation results show that the device is effective for negative trapping, where particles are effectively trapped at the device centre. The device geometry is optimized by maximizing the dielectrophoretic force. Key-Words:- Dielectrophoresis, quadrupole, DEP forces, viscous drag, non-dimensional, particle trajetor
We present modeling and experiments demonstrating quantitative single-particle trapping using dielec...
This paper presents a novel dielectrophoresis-based microfluidic device incorporating round hurdles ...
We model and simulate dielectrophoresis of microscale particles using the finite element method. A s...
Abstract:- Interdigitated microelectrodes have found wide applications in manipulating and/or separa...
AbstractWe present experimental results and modeling on the efficacy of dielectrophoresis-based sing...
This paper presents the simulation of general and travelling dielectrophoretic forces, as well as th...
ABSTRACT We present experimental results and modeling on the efficacy of dielectrophoresis-based sin...
Abstract We investigate the dielectrophoretic separation of microparticles. Two different models are...
We investigate the dielectrophoretic separation of microparticles. Two differ-ent models are formula...
Dielectrophoresis (DEP) is an electrokinetic phenomenon in which neutral but polarizable particles s...
A dielectrophoretic device employing a planar array of microelectrodes is designed for controlled tr...
This paper presents the development and experimental analysis of a dielectrophoresis (DEP) system, w...
Dielectrophoretic (DEP) force is exerted when a neutral particle is polarized in a non-uniform elect...
This paper introduces a new quadrupolemicroelectrodedesign for trapping mass loading of singlecells ...
We pesent a microfluidic cell-trap that utilizes negative dielectrophoresis (nDEP) force and hydrody...
We present modeling and experiments demonstrating quantitative single-particle trapping using dielec...
This paper presents a novel dielectrophoresis-based microfluidic device incorporating round hurdles ...
We model and simulate dielectrophoresis of microscale particles using the finite element method. A s...
Abstract:- Interdigitated microelectrodes have found wide applications in manipulating and/or separa...
AbstractWe present experimental results and modeling on the efficacy of dielectrophoresis-based sing...
This paper presents the simulation of general and travelling dielectrophoretic forces, as well as th...
ABSTRACT We present experimental results and modeling on the efficacy of dielectrophoresis-based sin...
Abstract We investigate the dielectrophoretic separation of microparticles. Two different models are...
We investigate the dielectrophoretic separation of microparticles. Two differ-ent models are formula...
Dielectrophoresis (DEP) is an electrokinetic phenomenon in which neutral but polarizable particles s...
A dielectrophoretic device employing a planar array of microelectrodes is designed for controlled tr...
This paper presents the development and experimental analysis of a dielectrophoresis (DEP) system, w...
Dielectrophoretic (DEP) force is exerted when a neutral particle is polarized in a non-uniform elect...
This paper introduces a new quadrupolemicroelectrodedesign for trapping mass loading of singlecells ...
We pesent a microfluidic cell-trap that utilizes negative dielectrophoresis (nDEP) force and hydrody...
We present modeling and experiments demonstrating quantitative single-particle trapping using dielec...
This paper presents a novel dielectrophoresis-based microfluidic device incorporating round hurdles ...
We model and simulate dielectrophoresis of microscale particles using the finite element method. A s...