Since it was first proposed in 2007, inertial microfluidics has been extensively studied in
terms of theory, design, fabrication, and application. In recent years, with the rapid …

Recently, remarkable developments have taken place, leading to significant improvements
in microfluidic methods to capture subtle biological effects down to single cells. As …

This paper treats the separation of particles in microchannels relevant to biological and
industrial process engineering. To elucidate the mechanisms creating uneven distribution of …

Various mechanisms of different designs have emerged for the purpose of microparticle
separation and cell sorting. The main goals behind such designs are to create high …

On-going demand for novel and more efficient inertial microfluidic devices has been driven
by their promising results and diverse applications, specifically in high-throughput analysis …

The microfluidics separation has absorbed wide-ranging attention in recent years due to its
outstanding advantages in biological, medical, clinical, and diagnostical cell studies. While …

A pressure resistant and optically accessible deterministic lateral displacement (DLD)
device was designed and microfabricated from silicon and glass for high-throughput …

Water contamination is a critical issue that threatens global public health. To enable the
rapid and precise monitoring of pathogen contamination in drinking water, a concentration …

The rising global need for clean water highlights the importance of efficient sample
preparation methods to separate and wash various contaminants such as microparticles …

We numerically investigated the dynamics of a paramagnetic elliptical particle immersed in a
low Reynolds number Poiseuille flow in a curved channel and under a uniform magnetic …