Microfluidic biochips represent a transformative technology that miniaturises laboratory functions onto single chip platforms, revolutionising biochemical assays, point‐of‐care diagnostics, and ...

UC engineering researchers create tiny pools without walls with programmable microfluidic systems. Microfluidic devices typically depend upon electrokinetic or traditional pressure methods to move ...

Researchers have developed a pioneering, sustainable method for producing cadmium-based quantum dots (QDs) in water using a biocompatible chalcogen source. This fully aqueous, continuous flow process ...

Novel techniques, automated machines, sophisticated synthetic and bioprospected polymerases, and developments in symbiotic sequencing technologies have transformed PCR into a multifaceted, adaptable ...

The test uses autofluorescent single-walled carbon nanotubes to detect bacterial cell death in antimicrobial-containing microfluidic channels.

Droplet creation is a crucial but challenging subject in microfluidics. Depending on the application, the objective is to produce droplets of a particular size. Two immiscible phases are used in ...

Using microfluidics, where liquid coolant is brought directly inside the silicon, Microsoft engineers developed a system capable of effectively cooling a server from inside the chip itself.

One of the major reasons why AI data centers are sucking up so much power is the need to cool processors that run very hot.

Microsoft tests microfluidic cooling that removes heat three times better than cold plates, reducing GPU spikes and lowering ...