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UK Scientists Make Transistor One Atom Long, 10 Atoms Wide

Posted by Soulskill on from the you-win-this-round-moore dept.

Bibek Paudel points out a story about the latest step forward in the development of nano-scale circuits. Researchers from the University of Manchester have created some of the smallest transistors ever, measuring only one atom by 10 atoms. The transistors are made out of graphene, which has the potential to replace silicon in the never-ending hunt for smaller computer technology. From NewScientist: "There are other kinds of prototype transistors in this size range. But they usually need supercooling using liquid gas, says Novoselov. The new graphene devices work at room temperature. Such prototypes are typically made by building one atom at a time, or wiring up individual molecules. Those approaches are complex and impractical, Novoselov says. By contrast, the graphene transistors were made in the same way that silicon devices are, by etching them out of larger pieces of material. 'That's their big advantage,' he says."

22 of 186 comments (clear)

  1. Orientation? by Anonymous Coward · · Score: 4, Funny

    One question...
    How do you know it's one atom long and ten wide? maybe it's ten atoms long and one wide?

    1. Re:Orientation? by transmorph · · Score: 5, Informative

      From the linked article:

      "The smallest dots that worked as transistors contained as few as five carbon rings - around 10 atoms or 1nm wide."

      Somehow that became 10 atoms wide and 1 atom long in the summary.

      I know, I know - this sort of thing would never happen on Slashdot...

  2. Wait... by Rik+Sweeney · · Score: 5, Funny

    Shouldn't that be 10 Atoms long, One Atom wide?

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    1. Re:Wait... by lixee · · Score: 4, Informative

      Not in electrical engineering.

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    2. Re:Wait... by cibyr · · Score: 5, Informative

      I know you've been modded funny, but some people are probably wondering - when talking about transistors, "length" is how far electrons have to travel through the transistor, and "width" is the other dimension (effectively how many electrons can travel through the transistor at the same time). Resistance is proportional to length and inversely proportional to width.

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    3. Re:Wait... by Anonymous Coward · · Score: 3, Funny

      You could think of it that way because you are a guy... but he article was submitted by a woman thinking "I am too fat"

    4. Re:Wait... by IndustrialComplex · · Score: 4, Informative

      'Liquid Gas' is sometimes used to describe a substance that is under pressure and a liquid, but is typically a gas under normal atmospheric conditions (1 atm, 25C or something similar)

      You will often see it in reference to Natural Gas, as 'Liquid Natural Gas' Since the term 'Natural Gas' is more of a formal name, than any descriptor of a chemical and its state.

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    5. Re:Wait... by p3d0 · · Score: 5, Informative

      It means "length" is the direction electrons flow, and "width" is perpendicular to that, even if that makes "length" smaller than "width".

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  3. U of Glasgow Made Similar Nano-Switch Progress by eldavojohn · · Score: 5, Insightful

    I submitted this in story form yesterday but also in recent news, Glasgow scientists have made a tiny switch that would make huge leaps in memory storage:

    Scientists at the University of Galsgow have claimed a breakthrough that enables them to store 500,000 gigabytes squeezed onto one square inch making way for some hilarious storage for things like cell phones and iPods. The scientists working on it divulged, "We have been able to assemble a functional nanocluster that incorporates two electron donating groups, and position them precisely 0.32 nm apart so that they can form a totally new type of molecular switching device. This is unprecedented and provides a route to produce new a molecule-based switch that can be easily manipulated using an electric field. By taking these nano-scale clusters, just a nanometer in size, and placing them onto a gold or carbon, we can control the switching ability. Not only is this a new type of switchable molecule, but by grafting the molecule on to metal (gold) or carbon means that we can potentially bridge the gap between traditional semiconductor devices and components for nanoscale plastic electronics. The key advantage of the molecule sized switch is information / transistor density in traditional semi-conductors. Molecule sized switches would lead to increasing data storage to say 4 Petabits per square inch. This breakthrough shows conceptually that this is possible (showing the bulk effect) but we are yet to solve the fabrication and addressing problems. The fact these switches work on carbon means that they could be embedded in plastic chips so silicon is not needed and the system becomes much more flexible both physically and technologically. Since these switches are little balls of metal oxide they are made of similar stuff to normal semi-conductors but are much easier to manipulate as discrete molecular units." You can read more about it in Nature's Nanotechnology publication. In related news, researchers have claimed to harness terahertz radiation using circuits.

    Another advancement in nanotechnology, thought I would post it here since it's probably not going to be used.

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  4. Science or Magic by whisper_jeff · · Score: 4, Interesting

    Seriously, sometimes I feel the line between science and magic gets fuzzy. A transistor one atom by 10 atoms? That's on such a small scale that is so hard to comprehend that it'd almost be easier to hand-wave it and just say "it's magic."

    1. Re:Science or Magic by wpiman · · Score: 3, Funny

      I think it is interesting it is one atom long by ten atoms wide. Isn't the definition of the long side the one that is longer?

    2. Re:Science or Magic by UnHolier+than+ever · · Score: 3, Interesting

      Worst. Graphene being 1 atom wide? Graphene is a planar sheet with a honeycomb lattice. I fail to see how you can make a 1 atom wide honeycomb lattice. Unless what they mean is 1 atom thick, but then this is a 1 atom X 10 atoms X 10^6 atoms transistor. This isn't quite the same thing.

  5. Old news by HetMes · · Score: 3, Funny

    Pah! I discovered Miniaturization two years ago in Civilization II.

    1. Re:Old news by GreyWolf3000 · · Score: 4, Funny
      I demand that you give me the secret of Miniaturization or we will crush your feeble civilization with our mighty armies immediately.

      You reject our generous offer? Very well, we will mobilize our armies for WAR. You will pay for your foolish pride!

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  6. Liquid gas? by jomegat · · Score: 3, Funny

    So... is a liquid gas anything like a solid liquid? Or perhaps a case of flatulence gone wrong?

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  7. Re:Power consumption? by Sinbios · · Score: 5, Funny

    Since the material in question is graphene, I'm going to take a wild guess and say... carbon.

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  8. There's such a thing as too small. by jcr · · Score: 4, Insightful

    At this scale, the transistor could very easily be destroyed by a cosmic ray. Interesting experiment, but I have a hard time believing that this development can find many practical applications.

    -jcr

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    1. Re:There's such a thing as too small. by JustinOpinion · · Score: 3, Interesting

      In Eric Drexler's book "Nanosystems, he carefully analyzes questions like this regarding the possible failure modes of atomically-precise devices. The book goes through the math in detail. The short answer is that even with fairly pessimistic assumptions (e.g. that a single-atom defect created during manufacture or afterwards by cosmic rays or other radiation will completely destroy a particular functional sub-unit), you can still design highly robust devices.

      The most obvious way is to build in some level of redundancy. Naively you can have dozens of redundant sub-units, and use things like "majority voting" to pull out the signal from the noise. In practice there are more elegant ways to do this (e.g. error correction). Many modern chips do indeed have some redundancies so that even with manufacturing defects, the chip still runs (perhaps with some reduction in functionality). Organizing the chip so that failsafe-checks occur during operation is certainly possible.

      Again, check out the book for more details. The point is that these questions have been thought about and they are not insurmountable. The rate of defects generated from spurious environmental damage (e.g. cosmic rays) is low enough that it can be overcome with fairly straightforward engineering.

  9. Re:Cool, but call me when it is cheap. by bheer · · Score: 5, Insightful

    Uh, no, the challenges to a *feasible* electric car are mostly technological. And no, boil-the-ocean schemes along the lines of "if only the government will mandate electric refill stations along the freeway" are not a political barrier, except in the minds of some activists. Any solution that requires massive up-front investments is a poor engineering solution.

    The real problem with an electric car is that *storing* electricity is a hard problem. And unless your electric car runs on rails, you will need to store electricity.

    Incidentally, cars aren't the only ones with this problems -- laptops and mobile phones have exactly the same problem.

    Now, recent advances in nanotech will help batteries improve, and we may even see practical capacitor-type storage devices. And when we get to that point, the electric car will be a reality.

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  10. meh by sootman · · Score: 3, Funny

    call me when they make one that's 1x4x9.

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  11. Re:think step up transformers by SilentBob0727 · · Score: 3, Insightful

    DC Transformers can't exist because transformers rely on the principle of electromagnetic induction, which requires a constantly changing magnetic field, which is a property DC does not exhibit by virtue of being constant.

    Step-up DC transformers would require an inverter (to convert to AC), followed by an AC transformer, followed a full-wave rectifier (to convert back to DC). Want to calculate the minimum efficiency lost on each step? Yeah, me neither.

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  12. Re:1 hidden comment by SilentBob0727 · · Score: 4, Funny

    And I can't think of a single application where a CMOS transistor is required, where a vacuum tube wouldn't do the trick.

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