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Nanoscale Crystals May Be The Future of Silicon

Posted by timothy on from the could-be-better-than-leds dept.

Wire Tap writes: "With all the talk about how silicon is nearing its physical limits in computer systems, and other data processing applications, I found this article quite interesting. "[Brian] Korgel and chemical engineering professor Keith Johnston have found a method to make stable microscopic nanocrystals out of silicon that can emit light. And by toying with the size of the silicon nanostructures, they can change the color of the light that shines through. It can make essentially faster memory and generate less heat and radiate less power.""

7 of 99 comments (clear)

  1. Re:Great, Except..... by shattered42 · · Score: 5, Insightful

    You make a great few points... except they're all wrong. Allow me to prevent the flamebait mod that's coming down the pike...

    1) Five years ago we had no method of slapping transistors on a chip on the .13 micron scale. Does that mean today we can't do it and it's not commercially viable??? Somehow I think not...

    2) The "fab" community (at least the ones who aren't into a certain British rawk group) will do whatever they damn well have to in order to produce what the market wants. They'll piss upwind in January while licking a metal signpost if it'll make them millions (billions?) in profit.

    3)When is new technology every not "decades behind" current technology??? current technology is current cuz it was started a decade ago. Cost comes down over time (which is why my Apple IIGS won't sell for the thousand that was paid for it), as cheaper means of production are discovered.

    Next time consider that perhaps the tech we have today isn't the pinnacle of existance and we might (believe it or not) be able to improve on it. It's going to take cash flow, a few wrong turns, and lots of people pissing on the parade, but it will happen.

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    Give a man fire and he's warm for a day. Set a man on fire and he's warm for the rest of his life!
  2. Down already? by zer0vector · · Score: 4, Funny

    Perhaps computers built with these new crystals will be fast enough to resist the onslaught of Slashdot. I wouldn't really know since I can't read the article.

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    Striving to put right what once went wrong, and hoping each time that his next leap, will be the leap ho
  3. This will revolutionize strip clubs by Kara+B. · · Score: 4, Troll

    5 words:

    Light emitting silicon breast implants.

    Brings a whole new meaning the "check out the headlights on that one."

    Sacred mother of god, we're about to give you boys another reason to stare at a woman's chest while talking to her.

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    --Kara
    Before you ask, I already have a boyfriend and he's more of a man than you'll ever be.
  4. Great, Except..... by rdslater596 · · Score: 4, Insightful

    Not to be a total wanker on the parade but this is money down the drain. Why?
    1. Becuase this technology has (currently) no way of being controlled to a point of being put in circuit. To put these crystals in a chip they have to be formed basically on the chip via some lithography method. So until technology devlops a way to put these cyrstals in a specific place this is all a bunch of cool but useless. 2.
    2. "Researchers heat a mix of an organic solvent called hexane and a hydrocarbon ligand known as octanol to 450 degrees Celsius inside a titanium chamber." Yeah, this is gonna go over great in the fab community. Now we have to redesign our lithgoraphy to take place indide a titanium chamber at 450 C.
    3. Price to performace. A lot of people make claims about new technology but when it comes down to it the reason we have our current tech is becuase its cheap(Comparitively) to put 20 million tranistors on a chip. This new techonolgy is several decades behind and probably will cost A LOT more. There are a lot of techonolgies better than Si transitors but the reason we use it is beacuse in the end comapnies sell a product, not get Tenure at a university. Technology breakthroughs from universities are exteremly importatnt but when they go off claiming to revolutionize commercial industry they are only fluffing there own feathers. Wait until a real company starts inversting in it and not some sucker venture capitalist.

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    Cthulhu for president!
  5. Synthesis is not the hardest step by pausz · · Score: 5, Informative

    This process doesn't seem new to me, because it looks surprisingly like the one a French group has invented a few years back. (Do a search for Fievet, and Polyol process). I think Fievet even has some patents on the synthesis procedure.

    There are actually many physical methods to make nanocrystals of inorganic materials: ball milling, synthesis in a cavitation field, spray pyrolysis. There are also many other (wet) chemical techniques, of which this is one: water/oil microemulsions, polymer solutions.

    The problem with the physical methods is the particle agglomeration, as was indicated in the article. However, the chemical synthesis methods also have problems, since you're stuck with a templating agent that surrounds your nanocrystals. This may be hindering any practical use of the nanocrystals... But you can't burn off the templating agent, because then the particles will agglomerate again.

  6. There is one important compenent missing by anshil · · Score: 5, Interesting

    When talking about light memories and light computers etc. we must face the fact that one basic light component is missing:

    The Light Transistor

    We can store light (the light flipflop), we can transport light effictivly, overlay it and all that, but we've no light controlled light amplifier.

    Currently we've to take the way around through electricity. Receive the light, transform it to an electrical signal, amplify the signal electrically and retransform the signal to light. This way we loose all the benefits light would have.

    Until we find a way to amplify light, directly controlled by light there will be no light computers, and light memories will stay in labratory only.

    If one day someone would discover in example some crystal that if shined upon from the side, will change it's up/down transperncy then nothing will stop the light computer, without that all other light components are for funny experiments only.

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    Karma 50, and all I got was this lousy T-Shirt.
  7. Re:Better notebook screens by atrowe · · Score: 5, Funny
    This technology isn't currently suited for display applications. The cost of production is still too high so that it would be highly cost prohibitive to produce a 15 inch laptop display.

    My company (which shall remain unnamed) has been working on this technology for processing and routing applications. It isn't intended to replace LCD displays, but to replace traditional silicon processors.

    Light processors have been in the planning and development stages for years now, and once the technology is perfected, will offer lower power consumption and less heat production as opposed to the standard silicon-on-insulator microprocessors that are in use today. The light emitting properties of these chips could also be used in optical routers and fiber switching/repeating applications, however we have yet to overcome the problem of interfacing the dylithium crystal matrix with the carbon nanotube fibres used in high speed optical cable. Hopefully the new flux capacitors in development at IBM's "Deep Space Nine" research facility in Oregon will solve this problem nicely, but it looks like these advancements are still several years off.

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    -atrowe: Card-carrying Mensa member. I have no toleranse for stupidity.