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New Ultrahard Diamond Glass Synthesized

posted by martyb on Saturday November 27 2021, @01:32AM   Printer-friendly
from the hard-work-pays-off dept.

takyon writes:

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)

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  • (Score: 2) by HiThere on Saturday November 27 2021, @02:21PM

    by HiThere (866) on Saturday November 27 2021, @02:21PM (#1199982) Journal

    Depending on which color of blue, it still is ground up gem stones.

    So. The two clearly difficult parts of making this are sourcing the buckyballs and getting the high pressure anvils. The bucky ball problem is probably soluble. I'd wager then "high pressure anvil" treatment won't be cheap during this century. If the addressed "stability at STP" I didn't encounter it in the summary, but I've got my doubts. Diamond is not stable at STP, but it lasts a LONG time, only slowly turning into graphite. This stuff...I don't think we'll need to worry about the landfills getting full of it. If it were stable, we'd have found some occuring in nature. But it may be good for a few centuries.

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