Inspired by hierarchical structures found in nature, a research team from the Hefei Institutes of Physical Science of the ...
Higher power density, smaller form factors and long-life reliability expectations all collide, requiring better thermal ...
Discover how heat resistant materials and material science innovations help electronics manufacturing manage rising temperatures, boost reliability, and enable smaller, more powerful next‑generation ...
NIMS, in joint research with the University of Tokyo, AIST, the University of Osaka, and Tohoku University, have proposed a ...
In recent years, the use of Phase Change Materials (PCMs) in thermal management systems (TMS) has garnered increased interest due to their high latent heat storage capacity, which enables effective ...
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New research shows promise of liquids as thermal conductors
Imagine a device that lets you move heat very quickly from one place to another, yet needs no power, no electricity, no pumps ...
Thermal runaway is a rapid self-heating process in a cell, driven by exothermic reactions within its materials, resulting in the release of stored chemical energy. While it can be triggered by factors ...
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Bio-inspired copper composite achieves zero thermal expansion and high heat transfer
Zero-thermal-expansion (ZTE) materials are widely used in precision optics, cryogenic equipment and sensors, where even small ...
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