University of Houston researchers have made a discovery in thermal conductivity that overturns an existing theory that boron ...

A team of UC Riverside engineers has discovered why a key solid-state battery material stays remarkably cool during operation ...

The researchers found that high-quality boron arsenide crystals achieved thermal conductivity above 2,100 watts per meter per ...

University of Houston researchers have made what they describe as a game-changing discovery in thermal conductivity, ...

Thermal interface materials (TIMs) and thermal coatings are crucial to managing the amount of heat on PCBs, and act as a ...

The purpose of creating these fluids was to enhance their thermal properties, improving on their thermal conductivity by increasing the rate of convection between these fluids and the surface.

Hot topic Fluorescent nanodiamonds coated with a heat-releasing polymer act as both a heat source and a sensor for intracellular measurements of thermal conductivity. (Courtesy: iStock/Mervana) A ...

Polymers are composed of very large molecules formed by a combination of different monomers (smaller and simpler molecules), which can be natural or synthetic. Polymers are the basis of many ...