The demand for cost-effective but increasingly greater computing power over the last fifty years has driven research and development into new materials and processes to meet the demand. Devices have ...

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

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

Graphene, a material which consists of a single layer of carbon atoms, has been celebrated by many as the "next big thing" in material science. But according to Purdue University researchers, its ...

University of Houston researchers have made a groundbreaking discovery in thermal conductivity, overturning an existing theory that boron arsenide (BAs) couldn’t compete with the heat conduction of a ...

Previous studies have shown that In10Ag TIMs outperform polymer-based TIMs in both end-of-line (EOL) testing and long-term ...

A novel technique using femtosecond lasers allows for precise control of thermal conductivity in thin films, paving the way ...

Researchers have discovered a way to make a versatile thermal conductor, with promise for more energy-efficient electronic devices, green buildings and space exploration. They have demonstrated that a ...

Inspired by hierarchical structures found in nature, a research team from the Hefei Institutes of Physical Science of the ...

Graphene, a material which consists of a single layer of carbon atoms, has been celebrated by many as the 'next big thing' in material science. But according to researchers, its thermal properties may ...