The separation and detection of particles in suspension are essential for a wide spectrum of
applications including medical diagnostics. In this field, microfluidic deterministic lateral …

Particle separation has been extensively studied in recent years in a wide range of sciences,
especially in the field of medicine and biotechnology. On the other hand, the topic has been …

Passive and label-free microfluidic devices have no complex external accessories or
detection-interfering label particles. These devices are now widely used in medical and …

Massive growth of the microfluidics field has triggered numerous advances in focusing,
separating, ordering, concentrating, and mixing of microparticles. Microfluidic systems …

Flow cytometry nowadays is among the main working instruments in modern biology paving
the way for clinics to provide early, quick, and reliable diagnostics of many blood-related …

Deterministic lateral displacement (DLD), which takes advantage of the asymmetric
bifurcation of laminar flow around the embedded microposts, has shown promising …

Deterministic lateral displacement (DLD) is a promising technology that allows for the
continuous and the size-based separation of suspended particles at a high resolution …

Abstract Circulating Tumor Cells (CTCs) play a prominent role in early cancer detection.
Emerging label-free techniques can be promising to CTC detection due to advantages in …

Deterministic lateral displacement (DLD) is a microfluidic method for the continuous
separation of particles based on their size. There is growing interest in using DLD for …

Deterministic lateral displacement (DLD) is a microfluidic technique for size fractionation of
particles/cells in continuous flow with a great potential for biological and clinical …