| Title | New Ultrahard Diamond Glass Synthesized | |
| Date | Saturday November 27 2021, @01:32AM | |
| Author | martyb | |
| Topic | ||
| from the hard-work-pays-off dept. | ||
New Ultrahard Diamond Glass Synthesized
Carnegie's Yingwei Fei and Lin Wang were part of an international research team that synthesized a new ultrahard form of carbon glass with a wealth of potential practical applications for devices and electronics. It is the hardest known glass with the highest thermal conductivity among all glass materials. Their findings are published in Nature.
[...] Because of its extremely high melting point, it's impossible to use diamond as the starting point to synthesize diamond-like glass. However, the research team, led by Jilin University's Bingbing Liu and Mingguang Yao—a former Carnegie visiting scholar—made their breakthrough by using a form of carbon composed of 60 molecules arranged to form a hollow ball. Informally called a buckyball, this Nobel Prize-winning material was heated just enough to collapse its soccer-ball-like structure to induce disorder before turning the carbon to crystalline diamond under pressure.
The team used a large-volume multi-anvil press to synthesize the diamond-like glass. The glass is sufficient large for characterization. Its properties were confirmed using a variety of advanced, high-resolution techniques for probing atomic structure.
Journal Reference:
Yuchen Shang, Zhaodong Liu, Jiajun Dong, et al. Ultrahard bulk amorphous carbon from collapsed fullerene, Nature (DOI: 10.1038/s41586-021-03882-9)
| Links |
printed from SoylentNews, New Ultrahard Diamond Glass Synthesized on 2023-05-26 18:38:47