Physicists have long pondered if there’s a way to form glass with minimal entropy, known as “ideal glass.” A team of ...

Some materials behave unexpectedly. They crack differently than expected, or react in ways that are hard to explain. The ...

Single-element amorphous metals, or metallic glass, are considered an ideal model systems for studying atomic-scale amorphous and glass formation. Moreover, their unique physical and chemical ...

Researchers uncovered how soft regions in amorphous silicon mix order and disorder, offering new insights for designing stronger amorphous materials. Persistence diagram obtained from the structure of ...

Researchers show how topological data analysis can be used to predict the properties of amorphous materials using machine learning, which could pave the way for more computationally efficient methods ...

As part of the AM2SoftMag project, researchers from Saarland University are developing metallic glass alloys for the AM of ...

The X-ray Laboratory of Rigaku Corporation, a Rigaku Holdings Group company and a global solution partner for X-ray analysis (headquarters: Akishima, Tokyo; president and CEO: Jun Kawakami; “Rigaku”), ...

Researchers at Delft University of Technology, led by assistant professor Richard Norte, have unveiled a remarkable new material with potential to impact the world of material science: amorphous ...

Concentrated rivers of current create flickering hotspots in conventional amorphous OLEDs, but crystalline designs may not have this problem.

Researchers have found that a two-dimensional carbon material is tougher than graphene and resists cracking—even the strongest crack under pressure, a problem materials scientists have long been ...