Researchers at the University of Chicago Pritzker School of Molecular Engineering (UChicago PME) and the Abdus Salam International Centre for Theoretical Physics (ICTP) have usedquantum mechanical ...

Advances in imaging and machine learning In their previous work, Hong's team, led by Limei Xu at Peking University, made significant strides toward a technique for studying the surface structure of ...

For centuries, people believed ice was slippery because pressure and friction melted a thin film of water. But new research from Saarland University reveals that this long-standing explanation is ...

Chances are that all your encounters with frozen water—while trudging through slushy winter streets, perhaps, or treating yourself to cool summer lemonades—have been confined to one structural form of ...

Add Yahoo as a preferred source to see more of our stories on Google. New simulations show ice stays slippery in deep cold because its crystal structure breaks down under motion, not because it melts.

The illustration shows what happens on the surface of ice when another object, such as skis, ice skates or shoe soles, comes into contact with it: the previously orderly crystal structure of the water ...

We usually think of ice as just frozen water. It is simple, solid, and cold. But water is a master of disguise. With just two atoms, hydrogen and oxygen, it can freeze into more than 20 different ...

“Ice XXI” is an entirely new phase of ice with a crystal structure that’s more complex than the ice found on Titan or Ganymede. Reading time 2 minutes For something so common to our daily lives, there ...

Add Yahoo as a preferred source to see more of our stories on Google. A team using powerful X-ray lasers has discovered ice XXI, a new phase of water that forms at room temperature under extreme ...