This study reports an approach to dynamically separate cultured human B-lymphoma (Raji) cells from normal human red blood cells (RBCs), mixed in an isotonic solution, by utilizing a hydrogenated amorphous silicon-based optically-induced electrokinetics chip. A theoretical calculation of the polarization model for the two different types of cells is first presented. The differential velocity between the cell types, generated as a result of the optically-induced dielectrophoresis (ODEP) force is obtained using a finite element method. The theoretical results indicate that the two types of cells could be separated by using the ODEP force. Experimental results verified that the two types of cells can be separated by using two optically projec...
The use of optical dielectrophoresis (ODEP) to manipulate microparticles and biological cells has be...
In this study, a microfluidic device was presented in which dielectrophoretic movement of red blood ...
Circulating tumor cells (CTCs) are cancer cells that fall off from cancer lesions and enter the bloo...
This study reports an approach to dynamically separate cultured human B-lymphoma (Raji) cells from...
<div><p>Early stage detection of lymphoma cells is invaluable for providing reliable prognosis to pa...
Early stage detection of lymphoma cells is invaluable for providing reliable prognosis to patients. ...
Exploring the clinicopathological characteristics of B-lymphocyte cells from human lymphoma patien...
This manuscript presents a new optically-induced dielectrophoretic (ODEP)-based operation methodolog...
This paper presents our work on the automated and parallel manipulation, separation, and concentrati...
The ability to characterize hematopoietic cells quickly and reliably is critical in precision medici...
In this paper, the translational motion and self-rotational behaviors of the Raji cells, a type of B...
This paper presents a particle tracing numerical approach into direct current insulating dielectroph...
Dielectrophoresis (DEP) has been widely explored to separate cells for various applications. However...
This thesis reports on the integration of continuous-flow cell separation method for lab-on-a-chip a...
<div><p>The use of optical dielectrophoresis (ODEP) to manipulate microparticles and biological cell...
The use of optical dielectrophoresis (ODEP) to manipulate microparticles and biological cells has be...
In this study, a microfluidic device was presented in which dielectrophoretic movement of red blood ...
Circulating tumor cells (CTCs) are cancer cells that fall off from cancer lesions and enter the bloo...
This study reports an approach to dynamically separate cultured human B-lymphoma (Raji) cells from...
<div><p>Early stage detection of lymphoma cells is invaluable for providing reliable prognosis to pa...
Early stage detection of lymphoma cells is invaluable for providing reliable prognosis to patients. ...
Exploring the clinicopathological characteristics of B-lymphocyte cells from human lymphoma patien...
This manuscript presents a new optically-induced dielectrophoretic (ODEP)-based operation methodolog...
This paper presents our work on the automated and parallel manipulation, separation, and concentrati...
The ability to characterize hematopoietic cells quickly and reliably is critical in precision medici...
In this paper, the translational motion and self-rotational behaviors of the Raji cells, a type of B...
This paper presents a particle tracing numerical approach into direct current insulating dielectroph...
Dielectrophoresis (DEP) has been widely explored to separate cells for various applications. However...
This thesis reports on the integration of continuous-flow cell separation method for lab-on-a-chip a...
<div><p>The use of optical dielectrophoresis (ODEP) to manipulate microparticles and biological cell...
The use of optical dielectrophoresis (ODEP) to manipulate microparticles and biological cells has be...
In this study, a microfluidic device was presented in which dielectrophoretic movement of red blood ...
Circulating tumor cells (CTCs) are cancer cells that fall off from cancer lesions and enter the bloo...