Apple’s “iWatch” Wrist-Device Coming to Stores in Late 2014


According to analysts, the wearable digital device by Apple termed the “iWatch” will be very useful indeed. But it is not expected to enter the electronics market soon. More than a year remains...
    


Atoms Play the Cast in IBM’s World’s Smallest Movie


The handling of lone atoms on a copper surface has yielded a virtual movie which is on display for the world to watch on YouTube. IBM makes this smallest video on a global basis. A couple of dozen...
    


Nano-machines built to mimic human muscle could help power cyborgs, keep the OSI budget down

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At today's prices, building a Six Million Dollar Man would cost around $31 million. Of course, being a TV show means the Office of Scientific Intelligence doesn't have too many bionic employees, but that might not the case in the future. Nicolas Giuseppone and a team at the Université de Strasbourg and CNRS have created thousands of nano-machines to replicate the movement of human muscle fibers. Weaving them all together, the machines are able to make a coordinated contraction movement that stretches and contracts. For the moment, the supramolecular polymers can only stretch a matter of micrometers, but in the future they could be used to create artificial muscles, small robots or even materials that can move. Hopefully it'll also give us the power to leap tall buildings, so we'll be outside practicing our sound effects.

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Nano-machines built to mimic human muscle could help power cyborgs, keep the OSI budget down originally appeared on Engadget on Wed, 24 Oct 2012 13:26:00 EDT. Please see our terms for use of feeds.

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Copper-nickel nanowires from Duke University could make ubiquitous printable circuits

Nanowires

Nanowires, although they're building steam, still have to overcome the not-so-small problem of cost -- they often have to use indium tin oxide that's not just expensive, but fragile. Duke University has developed copper-nanowire films that could remedy this in style. The choice of material is both a hundred times less expensive to make than indium and is much more durable. It's flexible, too: if layered on as a coating, the nanowires would make for considerably more viable wearable electronics that won't snap under heavy stress. The catch, as you might suspect, stems from the copper itself, which doesn't conduct as much electricity as indium. The nickel will keep your copper electronics from oxidizing faster than the Statue of Liberty, however. Any practical use could be years away, but further successes from Duke could quickly see printable electronics hit the mainstream power and power our dreams of flexible displays.

Copper-nickel nanowires from Duke University could make ubiquitous printable circuits originally appeared on Engadget on Thu, 31 May 2012 04:24:00 EDT. Please see our terms for use of feeds.

Permalink PhysOrg  |  sourceACS Publications  | Email this | Comments