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 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 ...

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 ...

Microfluidic sorting offers improved precision, yet conventional designs rely on rigid channels that restrict sorting paths and require additional processing to recover cells. These limitations hinder ...

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, ...

Cell sorting is used to separate cells according to their cell size, shape and surface protein expression. Classically used after single cell studies to validate biomarkers expressed on specific cell ...

A team has develop fibers containing systems for mixing, separating, and testing fluids. These fiber-based microfluidics systems may open up new possibilities for medical screening. Microfluidics ...

Researchers use a viscoelastic material flowing through a microfluidic chip to sort E. coli bacteria based on their degree of elongation. By using this 'lab-on-a-chip' device, scientists may be able ...

In nanoscale particle research, precise control and separation have long been a bottleneck in biotechnology. Researchers at the University of Oulu have now developed a new method that improves ...

MIT engineers have just introduced an element of fun into microfluidics. The field of microfluidics involves minute devices that precisely manipulate fluids at submillimeter scales. Such devices ...