When scientists study how materials behave under extreme conditions, they typically examine what happens under compression. But what occurs when you pull matter apart in all directions simultaneously?

Every summer, our cities burn energy to keep us cool. The same happens in winter with the increasing demand for heating.

By forcing crystal structures to compete, scientists uncovered a new way to make magnetism twist. Florida State University ...

Google DeepMind researchers have discovered 2.2 million crystal structures that open potential progress in fields from renewable energy to advanced computation, and show the power of artificial ...

Researchers at Google DeepMind and Lawrence Berkeley National Laboratory today announced in a stunning scientific breakthrough that they have developed a new AI system called GNoME that has discovered ...

Optical spectroscopy has been used to monitor a transition between crystal phases in materials called transition metal dichalcogenides. The findings improve our understanding of how this transition ...

The ability to predict crystal structures is a key part of the design of new materials. New research shows that a mathematical algorithm can guarantee to predict the structure of any material just ...

An artificial intelligence created by Google DeepMind may help revolutionise materials science, providing new ways to make better batteries, solar panels, computer chips and many more vital ...

Florida State University scientists have engineered a new crystal that forces atomic magnets to swirl into complex, repeating ...

When it comes to designing ultrabright solid-state fluorescent materials, bridged crystal designs might be the key to enabling monomeric emission and accessing novel crystalline systems, reveals a new ...