• PupBiru@kbin.social
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    1 year ago

    anyone with a better understanding able to articulate potential trade-offs/complications to using this in practical applications?

    *edited:
    more discussion: https://news.ycombinator.com/item?id=36864624

    the critical field and critical current seem very low … This means you can’t actually push big current through this thing (yet). You can’t make a powerful magnet, and you can’t make viable power lines

    The method to produce this material as described in the related paper [1] is fairly simple and could be done at home with a $200 home metal melting furnace from amazon and the precursors (which also seem to be fairly standard easy to obtain metals)

    Read this comment thread from SC researchers: <reddit link removed>
    Lots of problems with the paper, they claim. It is not up to the standards of current SC research. One of them says Dias’s work shows more merit than this.

    • DominicHillsun@lemmy.worldOP
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      1 year ago

      Insane capacity batteries

      Lossless power transmission via wires

      Better magnetically levitating trains

      Much more power efficient computers, electronics

      The list is huge

      • PupBiru@kbin.social
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        1 year ago

        no i know many of the applications, its huge if true! i understand that, but almost everything like this comes with trade-offs, and i was wondering if there are any here that would make it non-viable for some/all applications

        • schroedingershat@lemmy.world
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          1 year ago

          The claimed saturation current is very low. If this is inherent and not just a first-try thing it will be less-good than permanent magnets for doing many magnetic-field things and less-good than Aluminum for some current-carrying things.

          It’s a perovskite, in semiconductor applications these have stability and durability problems.

          It might also be a scam. This would make it useless.

      • 🧟‍♂️ Cadaver@lemmy.one
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        1 year ago

        The only drawback is that LK-99 is polycristalline… Levitating trains and computers, electronics, are a stretch as long as the material is not monocristalline.

        It is huge nethertheless.