Using machine learning workflows developed in-house, the researchers were able to establish that heat conduction is much more intricate than ...

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

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

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

Scientists are racing to develop new materials for quantum technologies in computing and sensing for ultraprecise ...

Superconductivity Limitations Electricity has been one of the most transformative technologies in history, allowing for the transmission of a very useful form of energy over long distances. But every ...

We utilize the molecular dynamics-based phonon wave-packet method to simulate how phonons transmit through materials featuring secondary periodicity, such as superlattices. A phonon, which quantifies ...

As their name suggests, nanocrystals are tiny particles. These particles are crystalline elements with at least one dimension smaller than 1,000 nanometres, where a nanometre is one thousand-millionth ...

Recent findings reveal phosphorene nanoribbons exhibit intrinsic magnetic and semiconducting properties, paving the way for ...

Ever since their discovery almost four decades ago, high-temperature superconductors have fascinated scientists and engineers ...

The researchers employed these constants to conclude that superconductivity could exist between temperatures of 100K and ...

Superconductors are game-changing materials that can transform everything, ranging from healthcare to energy transmission ...