Several biomedical analyses are performed on particular types of cells present in body
samples or using functionalized microparticles. Success in such analyses depends on the …

Multiphysics microfluidics, which combines multiple functional physical processes in a
microfluidics platform, is an emerging research area that has attracted increasing interest for …

Effective and high-throughput cell sorting are critical technologies in single cell analysis in
biology, medicine and clinical applications. Especially for single cell analysis requiring high …

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 …

Rapid progress in the field of microfluidics coupled with increase in demand for cell
separation techniques for biomedical diagnostics has gained significant attention among …

Size-based sorting and separation of microparticles is critical for many applications.
Conventional techniques might not be suitable for this task particularly when sample is …

Particle separation and sorting techniques based on microfluidics have found extensive
applications and are increasingly gaining prominence. This research presents the design …

Micro-magnets producing magnetic field gradients as high as 106 T m− 1 have been used to
efficiently trap nanoparticles with a magnetic core of just 12 nm in diameter. Particle capture …

Deterministic lateral displacement (DLD) is evolving as an effective passive technique for
seclusion of circulating tumor cells (CTCs) functioning based on nonuniform splitting of …

Curved microchannels take advantage of inertial and Dean drag forces to achieve size-
based separation of particles and cells. Despite the reported numerical and experimental …