As electronic devices become increasingly powerful and compact, they can generate denser heat fluxes, or in other words, ...

A three-layer cooler etched in silicon pulls heat from dense chips while using little power, hinting that heat may no longer ...

The reliable, noninvasive measurement of dissolved gases in microfluidic devices is an important and difficult activity for biological applications. The PreSens pCO 2 mini and chemical optical CO 2 ...

Controlled light masking and tuned platinum catalysts make it possible to volumetrically 3D print silicone devices with open ...

(Nanowerk News) MIT researchers have used 3D printing to produce self-heating microfluidic devices, demonstrating a technique which could someday be used to rapidly create cheap, yet accurate, tools ...

The creation of multilayer microfluidic devices could enable the production of cheaper, more intricate lab-on-a-chip designs. Allowing for fluid control and analysis on a small scale, microfluidics ...

Aerosol jet printing process for surface acoustic wave (SAW) microfluidic devices. a Schematic of the fabrication process and mechanism of the aerosol jet-printed SAW microfluidic devices.

Researchers have developed a 3D printing technique to fabricate microfluidic devices for biomedical applications at a microscale not previously possible. Microfluidic devices are compact testing tools ...

A fabrication process can produce self-heating microfluidic devices in one step using a multimaterial 3D printer. These devices, which can be made rapidly and cheaply in large numbers, could help ...