Genizer's NanoMixer is a microfluidic mixer designed for laboratory use. This nanomixer prepares mRNA, DNA, siRNA delivery systems, and various other nanoparticles. It is an electronic device that ...

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 ...

The challenge is that the tumor immune microenvironment is not a static backdrop but a constantly shifting ecosystem shaped by cancer cells, immune cells, stromal cells, cytokines, and physical ...

MIT’s David Hardt is working to move microfluidics from the lab to the factory. Hardt heads the Center for Polymer Microfabrication — a multidisciplinary research group funded by the Singapore-MIT ...

There are two major design subfields in microfluidics—chip-in-a-lab and lab-on-a-chip. Chip-in-a-lab aims to shrink laboratory operations down to the microliter (or smaller) scale, mainly for the cost ...

Researchers shrink a dye-laser set-up into a tiny polymer package suitable for lab-on-a-chip microsystems. Scientists in Denmark have come up with a compact, liquid light source for applications such ...

The field of microfluidics involves minute devices that precisely manipulate fluids at submillimeter scales. Such devices typically take the form of flat, two-dimensional chips, etched with tiny ...

With a simple tweak, researchers turned a commercial microfluidic chip designed for nucleic acid analysis into a device that can rapidly measure binding affinities between proteins and peptide ligands ...

Microfluidics, the ability to manipulate tiny volumes of liquid, is at the heart of many lab-on-a-chip devices. Such platforms can automatically mix and filter chemicals, making them ideal for disease ...

Chemists have created a device -- using little more than paper and sticky tape -- that can precisely separate liquids for further medical or environmental analysis. The scientists write in a ...