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Graphene: Reversible Method of Magnetic Doping Paves Way For Semiconductor Use 38

concertina226 writes: A team of physicists at University of California, Riverside have discovered how to induce magnetism in graphene in a way that still preserves the material's electronic properties, which paves the way for graphene to be used as a semiconductor.

The researchers grew a sheet of yttrium iron garnet using laser molecular beam epitaxy in a laboratory (abstract). Magnetic substances like iron are known to disrupt graphene's electrical conduction properties, but yttrium iron garnet works well as it is an electric insulator.

When a graphene sheet was placed on top of an atomically smooth sheet of yttrium iron garnet, the graphene borrowed the magnetic properties from the yttrium iron garnet and became magnetized without the need for doping.
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Graphene: Reversible Method of Magnetic Doping Paves Way For Semiconductor Use

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  • Graphene. Just say "no" to drugs?

    • When a graphene sheet was placed on top of an atomically smooth sheet of yttrium iron garnet, the graphene borrowed the magnetic properties from the yttrium iron garnet and became magnetized without the need for doping.

      I agree. I have had enough of hearing about all the doping scandals.
      The last thing I need is news that my writing instrument is high on who-knows-what.
      I can't wait to buy a pencil that will stick to my fridge without having to glue a magnet to it.
      ...and with two sheets built in, I won't have to hunt for paper!

      • Your CPU's obsolete
        Because of some skinny sheet
        Of Graphene!

        Don't know why
        Don't know why
        Don't know why
        Graphene!

        When your job ain't no fun
        Turn a zero to one
        With Graphene!

        Don't know why
        Don't know why
        Don't know why
        Graphene!

        Apologies to Eric Clapton...
      • I can't wait to buy a pencil that will stick to my fridge without having to glue a magnet to it.

        You gave me an idea for Magnetic Erasers

    • The first processor is codenamed "Armstrong"
      • by Chas ( 5144 )

        As opposed to the first myomer bundle bicep. "The Schwarzenegger Bundle"

  • Confused Summary (Score:4, Informative)

    by rubycodez ( 864176 ) on Wednesday January 28, 2015 @01:26PM (#48925875)

    Graphene might be used in semiconductor devices whether magnetized or not; being able to magnetize it opens possibilities of making some types of devices but in no way is a prerequisite for practical applications of graphene in computers, semiconductors, etc.

  • With all these attributes Graphene could maybe be applied to warfare as a payload. Once inhaled, some kind of detection scheme to track or detect the targets that were in the vicinity. Just put in a little graphene if you want to mark them for future surveillance, put in a shitload if you want them to inhale a bunch more...that would probably work faster than asbestos especially if it were possible to manipulate the structure to make particles ever more wickedly shaped. Like little shurikens or caltrops

  • by sacremon ( 244448 ) on Wednesday January 28, 2015 @01:46PM (#48926065)

    Until we have a way to mass produce the stuff, all this research is fine and well but you won't be seeing it in products anytime soon. Not saying the research is pointless, just that people shouldn't get too excited about the applications just yet. There are some more fundamental issues that need to be resolved first.

  • I'm sure it's commercially viable, easy and cheap to do. We'll see this in real world applications in about 2 years if all goes well.

    NOT!

    But good luck with it. This is the kind of breakthrough that may one day lead to viable quantum computers, teleportation, and other things that are relegated to the SyFy channel for now.
  • by blueshift_1 ( 3692407 ) on Wednesday January 28, 2015 @01:56PM (#48926137)
    It's fine to make graphene do all these goodies. We still have to find a way to manufacture it more efficiently... other than getting a lot of pencils and scotch tape :D
    • http://www.rsc.org/chemistrywo... [rsc.org]

      Maher El-Kady and others at the University of California at Los Angeles have now found a way to fabricate graphene films, and graphene capacitors, without any sticking together. The researchers take a DVD and apply a layer of plastic, followed by a film of graphite oxide. They then insert the DVD into a standard DVD drive, so that the in-built laser chemically reduces the graphite oxide to graphene. Having removed the disc, the researchers peel off the plastic, which is the

      • Hmm... I was just realizing that this DVD method should also allow for the printing of graphene-based circuits; instead of pitting the foil, the laser would be reducing paths in the disc (instead of the entire thing). I wonder how good the resolution would be using a method like this? Would it work with blu-ray and a blue laser, or would that break down the oxide too much? You should get better resolution that way, and if someone made a multi-layer disc with graphite oxide instead of reflective foil, you

  • Hey eggheads, shit or get off the pot already. I'm tired of reading of "what might happen in the future"... just do it for fucks sakes.
  • Early laser development: a solution in search of applications
    Early graphene development: A plethora of applications for a substance we still can't manufacture.

  • Nanotechnology is particularly bad about press release creep. That's when the author of a paper publishes

    "The proximity-induced ferromagnetic order in graphene can lead to novel transport phenomena such as the quantized AHE which are potentially useful for spintronics."

    and it becomes

    Graphene: Reversible Method of Magnetic Doping Paves Way For Semiconductor Use

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