Image: Microhand
The robotic microhand, made of four silicon finger "bones" and plastic balloon joints, is about as thick as a dime when the fingers are clenched, as they are here.
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updated 10/24/2006 3:13:51 PM ET 2006-10-24T19:13:51

A microscopic robot hand, made of silicon and plastic balloons, could help perform surgery and defuse bombs.

The "microhand" is so tiny that when clenched into a fist it measures a little over 1 millimeter across, or roughly as thick as a dime. It is made using silicon finger bones and balloons for joints that inflate and deflate to flex the fingers.

The robot hand was designed by microelectromechanical systems scientist Yen-Wen Lu at Rutgers University in Piscataway, N.J., and mechanical engineer Chang-Jin Kim at the University of California at Los Angeles. The prototype has four fingers arranged into a cross, each digit roughly a half-millimeter long, made via conventional semiconductor manufacturing techniques normally used to assemble electronics.

The microhand is gentle but strong enough to pluck a single delicate fish egg from a sticky egg mass.

"You could imagine this being used for microsurgery — at the end of a catheter, for instance. We found we could grab a nerve bundle with it," Kim told LiveScience. "We are also working with a company who said this could help disarm explosives. Right now the robotic manipulators used there are pretty crude, and a gentle and dexterous hand would be helpful."

Lu and Kim reported their findings online Oct. 16 via the journal Applied Physics Letters.

© 2012 LiveScience.com. All rights reserved.

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