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Silicene Discovered: Single-layer Silicon That Could Beat Graphene To Market

Posted by Soulskill on from the a-few-months-before-never dept.

MrSeb writes "Numerous research groups around the world are reporting that they have created silicene, a one-atom-thick hexagonal mesh of silicon atoms — the silicon equivalent of graphene. You will have heard a lot about graphene, especially with regard to its truly wondrous electrical properties, but it has one rather major problem: It doesn't have a bandgap, which makes it very hard to integrate into existing semiconductor processes. Silicene, on the other hand, is theorized to have excellent electrical properties, while still being compatible with silicon-based electronics (abstract). For now, silicene has only been observed (with a scanning tunneling electron microscope), but the next step is to grow a silicene film on an insulating substrate so that its properties can be properly investigated."

13 of 67 comments (clear)

  1. Re:And now? by tocsy · · Score: 5, Insightful

    None of those have the same crystal structure as carbon or silicon, which both form diamond lattices due to being group IV materials. As someone who works with silicon/gallium arsenide semiconductors and crystal formation, I think this is pretty exciting news. There's a large difference between observing something and making it work the way you want it to, though, so my guess is it'll be a while before silicene can be properly studied, let alone used in commercial semiconductor devices.

  2. Re:And now? by game+kid · · Score: 5, Funny

    I'm still waiting on the atom-thick holographic film, Holocene(tm).

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    You can hold down the "B" button for continuous firing.
  3. Beat Graphene to Market? by sirdude · · Score: 5, Interesting

    So, Silicene has just been observed for the first time under a scanning tunnel microscope, has had its properties only theoretically proposed, and is hoped to be "as miraculous as Graphene". Nevertheless, the author of the article already believes that it will beat Graphene to the market? Sheesh! Are all headlines nowadays conjured up by a dedicated company full of marketing types?

    1. Re:Beat Graphene to Market? by InvisibleClergy · · Score: 5, Funny

      Remember, "theorized to have" probably means something more like "we got some motherfuckin' mathematical models which say that this shit got all kindsa properties like".

  4. Re:And now? by sconeu · · Score: 4, Funny

    And the flexible version.... Pliocene

    --
    General Relativity: Space-time tells matter where to go; Matter tells space-time what shape to be.
  5. A Si mono-layer will grow a natural oxide fast by Sigurd_Fafnersbane · · Score: 5, Interesting

    I would be a little concerned that the silicon mono-layer would grow a natural oxide very fast and thus consume the silicon?

    The solution in a HEMT transistor is cool in this respect. It is using an un-doped IV-V semiconductor next to a highly doped layer and excess carriers will form a two-dimensional electron gas at the interface. The carriers will move along the surface of the un-doped semi-conducter that since it is un-doped have better mobility and fewer defects than doped material. It must be something along this property they try to re-create with a silicon mono-layer.

  6. Re:And now? by fredrated · · Score: 5, Funny

    I'm waiting for the censored version of the Oxygen-Boron layer: OBscene.

  7. Re:Physical Limits by Jeremi · · Score: 4, Funny

    "silicon â" a material which will probably reach its physical limits in the next 5-10 years" Haven't they been saying that since 1980?

    Yes -- and therefore silicon has no physical limits and Moore's Law will continue forever.

    --


    I don't care if it's 90,000 hectares. That lake was not my doing.
  8. Re:And now? by tocsy · · Score: 4, Informative

    I apologize, I was hurried and didn't explain myself very well in the first post. You're correct, graphene (and apparently now silicene) has sp2 hybridization, but as the AC reply to your post suggests, it's the fact that carbon is group IV that gives it such interesting characteristics as a 2D structure. As a sidenote, I'd hesitate to assume silicene's electronic properties - silicon doesn't naturally form anything like graphite (i.e. stacks of loosely bonded monolayers) that I know of and since the properties of diamond and graphene are so different and I don't study monolayer materials, it'd be irresponsible of me to say "silicene will have X band gap" etc. Very interesting stuff, though, I'll be interested to see how this develops.

  9. Abstract from one of the reports by ridgecritter · · Score: 3, Informative

    "Because of its unique physical properties, graphene, a 2D honeycomb arrangement of carbon atoms, has attracted tremendous attention. Silicene, the graphene equivalent for silicon, could follow this trend, opening new perspectives for applications, especially due to its compatibility with Si-based electronics. Silicene has been theoretically predicted as a buckled honeycomb arrangement of Si atoms and having an electronic dispersion resembling that of relativistic Dirac fermions. Here we provide compelling evidence, from both structural and electronic properties, for the synthesis of epitaxial silicene sheets on a silver (111) substrate, through the combination of scanning tunneling microscopy and angular-resolved photoemission spectroscopy in conjunction with calculations based on density functional theory."

    This is from Phys Rev Letters (DOI: 10.1103/PhysRevLett.108.155501

    they show reasonably convincing LEED (low energy electron diffraction) and STM (scanning tunneling microscope) images of the putative hexagonal close packed array of Si atoms.

  10. Re:It makes me wonder. . . by neo-mkrey · · Score: 4, Funny

    I thought saline replaced it -- wait -- what were you talking about again?

  11. Re:Physical Limits by Kjella · · Score: 5, Interesting

    "silicon - a material which will probably reach its physical limits in the next 5-10 years" Haven't they been saying that since 1980?

    Yes, there's been a lot of flawed assumptions but now we're nearing the most fundamental limits. The lattice spacing of silicon is about 0.55nm and the process size usually goes down with a factor about 0.6, so:

    22 nm * 0.6 = 14 nm
    14 nm * 0.6 = 8 nm
    8 nm * 0.6 = 5 nm
    5 nm * 0.6 = 3 nm
    3 nm * 0.6 = 1.8 nm
    1.8 nm * 0.6 = 1.08 nm
    1.08 nm * 0.6 = 0.648 nm

    ...and smaller than this just isn't possible. With Intel's tick-tocks there's two years between ticks so 14 years at that rate. But long before that you can start counting the lattices on your fingers, already at 5nm there's only nine left (9*0.55 = ~5) and that's only 6 years away. So late this decade or next decade at the latest Moore's law is dead.

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  12. Re:Physical Limits by mhajicek · · Score: 4, Insightful

    So late this decade or next decade at the latest Moore's law is dead.

    Unless someone comes up with something clever again.