Add to ORKGWe present experimental results and simulations on a simple method for tunable particle separation based on a combination of Deterministic Lateral Displacement (DLD) and Insulator Based Dielectrophoresis (I-DEP). Rather than deriving its tunability from its elastic properties[1], our present device uses an applied AC field to perturb the particle trajectories in the pressure-driven flow and is thereby capable of scanning the critical size over a range of factor two. Potential benefits include: extended dynamic range, facilitated fabrication and less clogging for given particle sizes, and combination of the precision afforded by DLD with the versatility of DEP
An electrokinetically driven deterministic lateral displacement device is proposed for the continuou...
Discussing the topic of the capability of dielectrophoresis (DEP) devices in terms of the selective ...
Manipulation of micro-sized particles and biological cells using dielectrophoresis (DEP) is an emerg...
We report the use of dielectrophoresis (DEP) to achieve tunability, improve dynamic range and open u...
We describe a novel particle separation technique that combines deterministic lateral displacement (...
Using electrically connected metal-coated posts in a deterministic lateral displacement (DLD) device...
This paper describes the behaviour of particles in a Deterministic Lateral Displacement (DLD) separa...
Deterministic Lateral Displacement (DLD) is a microfluidic technique where arrays of micropillars wi...
Dielectrophoretic (DEP) force is exerted when a neutral particle is polarized in a non-uniform elect...
We have fabricated a microfluidic device based on a novel geometrical arrangement of lateral metal e...
Microfluidics will lead to a revolution in the field of sample analysis and to the development of La...
The precise separation of nanoscale particles has proven challenging due to diffusion and the need t...
AbstractThis paper presents a novel dielectrophoresis (DEP) chip for lateral separation of cells/par...
Deterministic lateral displacement (DLD), a hydrodynamic, microfluidic technology, was first reporte...
Microfluidic devices can make a significant impact in many fields where obtaining a rapid response i...
An electrokinetically driven deterministic lateral displacement device is proposed for the continuou...
Discussing the topic of the capability of dielectrophoresis (DEP) devices in terms of the selective ...
Manipulation of micro-sized particles and biological cells using dielectrophoresis (DEP) is an emerg...
We report the use of dielectrophoresis (DEP) to achieve tunability, improve dynamic range and open u...
We describe a novel particle separation technique that combines deterministic lateral displacement (...
Using electrically connected metal-coated posts in a deterministic lateral displacement (DLD) device...
This paper describes the behaviour of particles in a Deterministic Lateral Displacement (DLD) separa...
Deterministic Lateral Displacement (DLD) is a microfluidic technique where arrays of micropillars wi...
Dielectrophoretic (DEP) force is exerted when a neutral particle is polarized in a non-uniform elect...
We have fabricated a microfluidic device based on a novel geometrical arrangement of lateral metal e...
Microfluidics will lead to a revolution in the field of sample analysis and to the development of La...
The precise separation of nanoscale particles has proven challenging due to diffusion and the need t...
AbstractThis paper presents a novel dielectrophoresis (DEP) chip for lateral separation of cells/par...
Deterministic lateral displacement (DLD), a hydrodynamic, microfluidic technology, was first reporte...
Microfluidic devices can make a significant impact in many fields where obtaining a rapid response i...
An electrokinetically driven deterministic lateral displacement device is proposed for the continuou...
Discussing the topic of the capability of dielectrophoresis (DEP) devices in terms of the selective ...
Manipulation of micro-sized particles and biological cells using dielectrophoresis (DEP) is an emerg...