Discover how heat resistant materials and material science innovations help electronics manufacturing manage rising temperatures, boost reliability, and enable smaller, more powerful next‑generation ...

The heat is on and temperature records keep getting shattered. In June of this year, more than 60 percent of the world population faced extreme heat that was made at least three times more likely by ...

NIMS, in joint research with the University of Tokyo, AIST, the University of Osaka, and Tohoku University, have proposed a ...

Higher power density, smaller form factors and long-life reliability expectations all collide, requiring better thermal ...

Zero-thermal-expansion (ZTE) materials are widely used in precision optics, cryogenic equipment and sensors, where even small ...

A rare mineral from a 1724 meteorite defies the rules of heat flow, acting like both a crystal and a glass. Thanks to AI and quantum physics, researchers uncovered its bizarre ability to maintain ...

Researchers at Princeton and UCLA have developed a passive mechanism to cool buildings in the summer and warm them in the winter. In an article published June 27 in the journal Cell Reports Physical ...

Light exposure switches heat flow in barium titanate by altering its structure, offering a reversible method for dynamic thermal control in ferroelectric materials. (Nanowerk Spotlight) We can switch ...

Using four-photon scattering, Purdue University researchers found that graphene's thermal qualities might not be as groundbreaking as first believed. Image Credit: Kateryna Kon/Shutterstock.com ...