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

How do the circuits of the human brain work—and what happens when they are disrupted? To investigate these questions, ...

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

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

Microsoft tests microfluidic cooling that removes heat three times better than cold plates, reducing GPU spikes and lowering energy consumption in AI data centers.

Typically, a data center might use fans to pass cool air over a chip. A more advanced technology that Microsoft employs for ...

Researchers showed that particle deformability governs focusing in microfluidics, leading to a new model that could advance diagnostics including early cancer detection. (Nanowerk News) Scientists in ...

Researchers develop three-layer microfluidic cooling system to manage high heat fluxes in compact electronic devices.

Researchers at Brigham Young University have made an enormous leap in the production process for microfluidic devices. If the new 3D-printing process works as warranted, then science that relies on ...