Add to ORKGWe present a deterministic-lateral-displacement (DLD) device that extends the capabilities of this traditionally sizebased particle separation technique to also be sensitive to density. By the use of T-shaped posts instead of the normally cylindrical posts the particle trajectory through the device will be a function of its vertical position which in turn is determined by the buoyancy of the particles. The potential lies in fast sorting of complex biological samples together with diagnosis and treatment-monitoring of diseases affecting cell-density, eg. cancer, sickle-cell anemia and malaria. We demonstrate proof-of-principle of combined size-and-density-based sorting, specifically particles of identical size but different density
Due to their direct coupling to the physiology of the cells, the physical properties are especially ...
Device, system and method for sorting particles comprised into a fluid are disclosed that improve th...
Deterministic lateral displacement (DLD) devices have great potential for the separation and sorting...
We present a label-free method capable of rapidly sorting particles based on their densities. Our de...
Deterministic Lateral Displacement (DLD) devices have been used to separate particles based on size ...
The inherent properties of cells and micro-organisms is an under-explored source of specificity for ...
An important step in diagnostics is the isolation of specific cells and microorganisms of interest f...
Microfluidics is a field which has the potential to revolutionize medical diagnostics. The ability t...
An important step in diagnostics is the isolation of specific cells and microorganisms of interest f...
International audienceDeterministic lateral displacement (DLD) has been extensively implemented in t...
We have created devices that are extremely simple to fabricate, function without pumps, are reusable...
In the fields of medicine and biology, the separation of particles is a central step in many prepara...
Microfluidic devices provide a controlled platform for the manipulation and control of volumetric am...
Separation by size is a fundamental analytical and preparative technique in biology, medicine, and c...
Deterministic Lateral Displacement (DLD) is a relatively recent microfluidics-assisted technique whi...
Due to their direct coupling to the physiology of the cells, the physical properties are especially ...
Device, system and method for sorting particles comprised into a fluid are disclosed that improve th...
Deterministic lateral displacement (DLD) devices have great potential for the separation and sorting...
We present a label-free method capable of rapidly sorting particles based on their densities. Our de...
Deterministic Lateral Displacement (DLD) devices have been used to separate particles based on size ...
The inherent properties of cells and micro-organisms is an under-explored source of specificity for ...
An important step in diagnostics is the isolation of specific cells and microorganisms of interest f...
Microfluidics is a field which has the potential to revolutionize medical diagnostics. The ability t...
An important step in diagnostics is the isolation of specific cells and microorganisms of interest f...
International audienceDeterministic lateral displacement (DLD) has been extensively implemented in t...
We have created devices that are extremely simple to fabricate, function without pumps, are reusable...
In the fields of medicine and biology, the separation of particles is a central step in many prepara...
Microfluidic devices provide a controlled platform for the manipulation and control of volumetric am...
Separation by size is a fundamental analytical and preparative technique in biology, medicine, and c...
Deterministic Lateral Displacement (DLD) is a relatively recent microfluidics-assisted technique whi...
Due to their direct coupling to the physiology of the cells, the physical properties are especially ...
Device, system and method for sorting particles comprised into a fluid are disclosed that improve th...
Deterministic lateral displacement (DLD) devices have great potential for the separation and sorting...