Separation of Heterotrophic Microalgae Crypthecodinium cohnii by Dielectrophoresis

Abstract: Microalgae constitute an abundant source of poly-unsaturated fatty acids which are applied in various biotechnological fields such as pharmaceuticals and food supplement. Separating microalgae cells with respect to their lipid content would establish a relevant at-line analytical technique. The present study demonstrates an electrical approach for the separation of the lipid-producing microalgae Crypthecodinium cohnii using the effect of dielectrophoresis (DEP) in a microfluidic flow cell. Microalgae were cult… Show more

“…In biotechnology DEP has been frequently applied for separation of various microscopic scaled particles such as blood cells [ 45 ], microalgae [ 46 , 47 ], yeast [ 48 ], and bacteria [ 34 ]. This allows applications such as cell separation and sorting, concentration, and cell trapping [ 34 ].…”

Dielectrophoresis: An Approach to Increase Sensitivity, Reduce Response Time and to Suppress Nonspecific Binding in Biosensors?

“…In biotechnology DEP has been frequently applied for separation of various microscopic scaled particles such as blood cells [ 45 ], microalgae [ 46 , 47 ], yeast [ 48 ], and bacteria [ 34 ]. This allows applications such as cell separation and sorting, concentration, and cell trapping [ 34 ].…”

Dielectrophoresis: An Approach to Increase Sensitivity, Reduce Response Time and to Suppress Nonspecific Binding in Biosensors?

Microfluidic systems as a novel approach for microalgal bioprocess

Dielectrophoretic separation and purification: From colloid and biological particles to droplets