Scientists know well how conventional materials conduct heat. However, things are not as straightforward under extreme ...

In an ultra-cold, high-magnetic-field setting, ZrTe5 defies expectations by showing quantum heat oscillations. Researchers ...

Complex materials such as organic semiconductors or the microporous metal-organic frameworks known as MOFs are already being ...

Using machine learning workflows developed in-house, researchers have established that heat conduction is much more intricate ...

New insights into heat transport in organic semiconductors reveal tunneling effects, enhancing the design of materials with ...

Complex materials such as organic compound semiconductors or the microporous metal-organic frameworks known as MOFs are ...

The Efficient Engineer Understanding Conduction and the Heat Equation Posted: March 11, 2025 | Last updated: March 11, 2025 Continuing the heat transfer series, in this video we take a look at ...

When fast-moving atoms or molecules hit slower-moving atoms or molecules and increase their speed, heat is transferred. This process is called conduction. The atoms in the hot spoon are moving faster ...

There are better heat conductors but they aren't practical materials for producing computer heatsinks: silver exceeds copper's thermal conductivity at 429W/mK (hence Arctic Silver thermal paste ...

If you can’t answer the riddle, don’t feel bad. Metal conductors usually conduct electricity and heat. Usually, that’s true, but researchers at the Department of Energy’s Lawrence Berkeley ...

The ability to conduct heat is one of the most fundamental properties of matter, crucial for engineering applications.

"When a normal metal such as silver or copper is placed in strong magnetic fields at temperatures close to absolute zero, that is −273.15 °C, its heat conduction is expected to oscillate − a ...