Add to ORKGWe present a microfluidic device that can sort nanosized extracellular vesicles (EVs) based on electrokinetics and Deterministic Lateral Displacement (DLD). The device is made from PDMS using standard soft-lithography, can separate particles down to 200 nm, and what is more, can achieve almost two orders of magnitude higher throughput than an otherwise single electrokinetic DLD device
An important step in diagnostics is the isolation of specific cells and microorganisms of interest f...
This paper describes the behaviour of particles in a Deterministic Lateral Displacement (DLD) separa...
We present a deterministic-lateral-displacement (DLD) device that extends the capabilities of this t...
We describe fractionation of sub-micron vesicles and particles suspended in high conductivity electr...
Microfluidics will lead to a revolution in the field of sample analysis and to the development of La...
We show that by combining deterministic lateral displacement (DLD) with electrokinetics, it is possi...
Device, system and method for sorting particles comprised into a fluid are disclosed that improve th...
We show that by combining deterministic lateral displacement (DLD) with electrokinetics, it is possi...
We have created devices that are extremely simple to fabricate, function without pumps, are reusable...
Separation by size is a fundamental analytical and preparative technique in biology, medicine, and c...
We describe a novel particle separation technique that combines deterministic lateral displacement (...
International audienceWe propose a simple microfluidic device able to separate extracellular vesicle...
An important step in diagnostics is the isolation of specific cells and microorganisms of interest f...
Deterministic Lateral Displacement (DLD) is a label-free particle sorting method that separates by s...
Deterministic Lateral Displacement (DLD) is a label-free particle sorting method that separates by s...
An important step in diagnostics is the isolation of specific cells and microorganisms of interest f...
This paper describes the behaviour of particles in a Deterministic Lateral Displacement (DLD) separa...
We present a deterministic-lateral-displacement (DLD) device that extends the capabilities of this t...
We describe fractionation of sub-micron vesicles and particles suspended in high conductivity electr...
Microfluidics will lead to a revolution in the field of sample analysis and to the development of La...
We show that by combining deterministic lateral displacement (DLD) with electrokinetics, it is possi...
Device, system and method for sorting particles comprised into a fluid are disclosed that improve th...
We show that by combining deterministic lateral displacement (DLD) with electrokinetics, it is possi...
We have created devices that are extremely simple to fabricate, function without pumps, are reusable...
Separation by size is a fundamental analytical and preparative technique in biology, medicine, and c...
We describe a novel particle separation technique that combines deterministic lateral displacement (...
International audienceWe propose a simple microfluidic device able to separate extracellular vesicle...
An important step in diagnostics is the isolation of specific cells and microorganisms of interest f...
Deterministic Lateral Displacement (DLD) is a label-free particle sorting method that separates by s...
Deterministic Lateral Displacement (DLD) is a label-free particle sorting method that separates by s...
An important step in diagnostics is the isolation of specific cells and microorganisms of interest f...
This paper describes the behaviour of particles in a Deterministic Lateral Displacement (DLD) separa...
We present a deterministic-lateral-displacement (DLD) device that extends the capabilities of this t...