Add to ORKGIsolation and enrichment of cells from a diluted sample is necessary for different clinical applications. Here we have demonstrated the use of 3D carbon electrode dielectrophoresis (DEP) to process a diluted yeast sample featuring concentration as low as 102 cells/ml. The yeast cells in the sample were first trapped on carbon electrodes by implementing positive DEP force and then released and concentrated in a small volume of clean buffer. The maximum limit of the cell trapping for our device was found to be around 4000 cells. Using 10 µl/min, an enrichment of 154.2 ± 23.7 folds was achieved, where sample of 102 cells/ml concentration was enriched up to 4 X 104 cells/ml. Upon increasing the flow rate up to 30 µl/min, the enrichment dropped ...
The dielectrophoretic (DEP) separation of cell, using microelectrodes structure, has been limited to...
Blood has been the most reliable body fluid commonly used for the diagnosis of diseases. Although th...
This thesis describes experimental and theoretical investigations into new particle handling and sep...
Here, we report on an enrichment protocol using carbon electrodedielectrophoresis to isolate and pur...
Currently, cell separation occurs almost exclusively by density gradient methods and by fluorescence...
Carbon-electrode dielectrophoresis (carbon-DEP) is demonstrated here as an alternative to more tradi...
This paper presents a dielectrophoretic system for the immobilization and separation of live and dea...
The sorting of targeted cells or particles from a sample is a crucial step in the sample preparation...
A technique called dielectrophoresis (DEP) has been proved to be an effective method for the separat...
Dielectrophoresis (DEP) represents a powerful approach to manipulate and study living cells. Hithert...
Whilst laboratory-on-chip cell separation systems using dielectrophoresis are increasingly reported ...
Currently, cell separation occurs almost exclusively by density gradient methods and by fluorescence...
Microfluidic devices for dielectrophoretic cell separation are typically designed and constructed us...
Currently, cell separation occurs almost exclusively by density gradient methods and by fluorescence...
There is great interest in highly sensitive separation methods capable of quickly isolating a partic...
The dielectrophoretic (DEP) separation of cell, using microelectrodes structure, has been limited to...
Blood has been the most reliable body fluid commonly used for the diagnosis of diseases. Although th...
This thesis describes experimental and theoretical investigations into new particle handling and sep...
Here, we report on an enrichment protocol using carbon electrodedielectrophoresis to isolate and pur...
Currently, cell separation occurs almost exclusively by density gradient methods and by fluorescence...
Carbon-electrode dielectrophoresis (carbon-DEP) is demonstrated here as an alternative to more tradi...
This paper presents a dielectrophoretic system for the immobilization and separation of live and dea...
The sorting of targeted cells or particles from a sample is a crucial step in the sample preparation...
A technique called dielectrophoresis (DEP) has been proved to be an effective method for the separat...
Dielectrophoresis (DEP) represents a powerful approach to manipulate and study living cells. Hithert...
Whilst laboratory-on-chip cell separation systems using dielectrophoresis are increasingly reported ...
Currently, cell separation occurs almost exclusively by density gradient methods and by fluorescence...
Microfluidic devices for dielectrophoretic cell separation are typically designed and constructed us...
Currently, cell separation occurs almost exclusively by density gradient methods and by fluorescence...
There is great interest in highly sensitive separation methods capable of quickly isolating a partic...
The dielectrophoretic (DEP) separation of cell, using microelectrodes structure, has been limited to...
Blood has been the most reliable body fluid commonly used for the diagnosis of diseases. Although th...
This thesis describes experimental and theoretical investigations into new particle handling and sep...