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

Efficient separation of microalgae is essential for biotechnology, food science, and sustainable bio-production, yet ...

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 ...

Membrane-based filtration is widely used to harvest therapeutic proteins from their host cells in biomanufacturing. However, it is often plagued with fouling issues that require frequent filter ...

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 ...

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 ...

Three-dimensional (3D) particle focusing in microfluidics is a fundamental capability with a wide range of applications, such as on-chip flow cytometry, where high-throughput analysis at the ...

Researchers have developed a precise microscale manipulation method by rapidly flowing cell suspensions through a specially designed microchannel. This novel microfluidic device enables ...

Cell sorting, in particular the currently dominant jet-in-air electrostatic droplet sorting technology known as fluorescence-activated cell sorting (FACS), has enabled important advances in biology ...