A review article by the research team supervised by assistant professor Pengfei Song, with Hang Yuan, an undergraduate student as the first author at Xi’an Jiaotong-Liverpool University (XJTLU), ...

A paper by scientists at the Hangzhou Dianzi University proposed a 3D-stacked multi-stage inertial microfluidic sort chip to enrich and separate Circulating Tumor Cells (CTCs). The new paper, ...

Researchers have discovered a novel criterion for sorting particles in microfluidic channels, paving the way for advancements in disease diagnostics and liquid biopsies. Using the supercomputer ...

A research collaboration has developed a technology capable of extracting mesenchymal stem cells (MSCs) directly from pure bone marrow—also known as bone marrow aspirate (BMA), a pivotal source of ...

Our lab has developed a novel platform for droplet sorting that can be used to sort enzymes by activity, and cells by metabolism. It is a passive technique that utilizes no excitation laser, detector, ...

We introduce magnetophoresis-based microfluidics for sorting biological targets using positive Magnetophoresis (pM) for magnetically labeled particles and negative Magnetophoresis (nM) for label-free ...

The capability to sort single cells of interest and to deeply characterize them has greatly added to our understanding of biology and disease states. Indeed, cell sorting has become an indispensable ...

A team of researchers from University of Cincinnati (UC) in Cincinnati, OH have developed a novel microfluidic device, which combines the inertial effect of fluid and microscale vortices generated in ...

The manipulation of cells and particles suspended in viscoelastic fluids in microchannels has drawn increasing attention, in part due to the ability for single-stream three-dimensional focusing in ...