Add to ORKGAbstract: This study reports an optically-induced dielectrophoretic (ODEP) force-based microfluidic platform for live and dead cell separation and collection. ODEP forces are used to separate the live and dead cells due to their opposite responses to an ODEP force. Combining the flow control in a microfluidic system, the live and dead cells can be separated and subsequently collected in an efficient and effective manner. The operating conditions of the ODEP force for manipulating the live and dead chondrocytes is characterized, and separation performance is experimentally evaluated. Results revealed that an applied voltage of 8 V resulted in a maximum difference of manipulation force for the live (49.4 pN) and dead (-20.1 pN) cells. Results...
The ability to characterize hematopoietic cells quickly and reliably is critical in precision medici...
We present the principle of cell characterization and separation by dielectrophoretic field-flow fra...
Separating live and dead cells is critical to the diagnosis of early stage diseases and to the effic...
This manuscript presents a new optically-induced dielectrophoretic (ODEP)-based operation methodolog...
We describe a system for the isolation, concentration, separation, and recovery of human osteoblast-...
Biological cell manipulation and analysis is one of the most investigated applications of microfluid...
Hydrodynamic-based microfluidic platforms enable single-cell arraying and analysis over time. Despit...
This study introduces a new generation of dielectrophoretic-based microfluidic device for the precis...
Cell manipulation and separation has numerous biological and medical applications, e.g., identificat...
Novel particle manipulation techniques are developed to separate, isolate, and control a wide range ...
An approach that combines not only the cell manipulation capabilities of dielectrophoresis (DEP), bu...
Contactless dielectrophoresis (cDEP) is a recently developed method of cell manipulation in which th...
The demand for on-chip cancer cell separation in biomedical, bio-sensor, bio-detection, personalized...
Dielectrophoresis is a robust approach for manipulating bioparticles in microfluidic devices. In rec...
Early stage detection of lymphoma cells is invaluable for providing reliable prognosis to patients. ...
The ability to characterize hematopoietic cells quickly and reliably is critical in precision medici...
We present the principle of cell characterization and separation by dielectrophoretic field-flow fra...
Separating live and dead cells is critical to the diagnosis of early stage diseases and to the effic...
This manuscript presents a new optically-induced dielectrophoretic (ODEP)-based operation methodolog...
We describe a system for the isolation, concentration, separation, and recovery of human osteoblast-...
Biological cell manipulation and analysis is one of the most investigated applications of microfluid...
Hydrodynamic-based microfluidic platforms enable single-cell arraying and analysis over time. Despit...
This study introduces a new generation of dielectrophoretic-based microfluidic device for the precis...
Cell manipulation and separation has numerous biological and medical applications, e.g., identificat...
Novel particle manipulation techniques are developed to separate, isolate, and control a wide range ...
An approach that combines not only the cell manipulation capabilities of dielectrophoresis (DEP), bu...
Contactless dielectrophoresis (cDEP) is a recently developed method of cell manipulation in which th...
The demand for on-chip cancer cell separation in biomedical, bio-sensor, bio-detection, personalized...
Dielectrophoresis is a robust approach for manipulating bioparticles in microfluidic devices. In rec...
Early stage detection of lymphoma cells is invaluable for providing reliable prognosis to patients. ...
The ability to characterize hematopoietic cells quickly and reliably is critical in precision medici...
We present the principle of cell characterization and separation by dielectrophoretic field-flow fra...
Separating live and dead cells is critical to the diagnosis of early stage diseases and to the effic...