Add to ORKGThis paper reports on a novel method for on-chip continuous separation of divid- ing and non-dividing cells based on differences in their dielectric properties. By means of two opposite dielectrophoretic force fields at multiple frequencies, the two populations of cells flowing through the microfluidic device are focused towards distinct equilibrium positions, which can be correlated to their cell cycle
INTRODUCTION: In this paper we describe a micro-fabricated cell separation and positioning system ba...
This paper presents a microfluidic radiofrequency device operating at a few hundred MHz, which is ab...
Dielectrophoretic devices are capable of the detection and manipulation of cancer cells in a label-f...
We have fabricated a microfluidic device based on a novel geometrical arrangement of lateral metal e...
This thesis reports on the integration of continuous-flow cell separation method for lab-on-a-chip a...
Dissertation under the direction of Professor Dongqing Li AC-dielelectrophoresis is utilized inside ...
The study presents a dielectrophoretic cell separation method via three-dimensional (3D) nonuniform ...
The present work demonstrates the use of a dielectrophoretic lab-on-a-chip device in effectively sep...
There is great interest in highly sensitive separation methods capable of quickly isolating a partic...
In this contribution we present a microfluidic chip for the continuous and label-free separation of ...
Cell manipulation and separation are critical in biomedical diagnosis. Typical techniques such as fl...
This study introduces a new generation of dielectrophoretic-based microfluidic device for the precis...
Dielectrophoresis (DEP) has been widely explored to separate cells for various applications. However...
To detect electrical properties of cells, we have developed a method called iso-dielectric separatio...
AbstractThis paper presents a novel dielectrophoresis (DEP) chip for lateral separation of cells/par...
INTRODUCTION: In this paper we describe a micro-fabricated cell separation and positioning system ba...
This paper presents a microfluidic radiofrequency device operating at a few hundred MHz, which is ab...
Dielectrophoretic devices are capable of the detection and manipulation of cancer cells in a label-f...
We have fabricated a microfluidic device based on a novel geometrical arrangement of lateral metal e...
This thesis reports on the integration of continuous-flow cell separation method for lab-on-a-chip a...
Dissertation under the direction of Professor Dongqing Li AC-dielelectrophoresis is utilized inside ...
The study presents a dielectrophoretic cell separation method via three-dimensional (3D) nonuniform ...
The present work demonstrates the use of a dielectrophoretic lab-on-a-chip device in effectively sep...
There is great interest in highly sensitive separation methods capable of quickly isolating a partic...
In this contribution we present a microfluidic chip for the continuous and label-free separation of ...
Cell manipulation and separation are critical in biomedical diagnosis. Typical techniques such as fl...
This study introduces a new generation of dielectrophoretic-based microfluidic device for the precis...
Dielectrophoresis (DEP) has been widely explored to separate cells for various applications. However...
To detect electrical properties of cells, we have developed a method called iso-dielectric separatio...
AbstractThis paper presents a novel dielectrophoresis (DEP) chip for lateral separation of cells/par...
INTRODUCTION: In this paper we describe a micro-fabricated cell separation and positioning system ba...
This paper presents a microfluidic radiofrequency device operating at a few hundred MHz, which is ab...
Dielectrophoretic devices are capable of the detection and manipulation of cancer cells in a label-f...