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Engineers Make Artificial Skin out of Nanowires

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Postby sandra » Mon Sep 13, 2010 8:50 am

Engineers Make Artificial Skin out of Nanowires
ScienceDaily (Sep. 12, 2010) — Engineers at the University of California, Berkeley, have developed a pressure-sensitive electronic material from semiconductor nanowires that could one day give new meaning to the term "thin-skinned."


--------------------------------------------------------------------------------
"The idea is to have a material that functions like the human skin, which means incorporating the ability to feel and touch objects," said Ali Javey, associate professor of electrical engineering and computer sciences and head of the UC Berkeley research team developing the artificial skin.

The artificial skin, dubbed "e-skin" by the UC Berkeley researchers, is described in a Sept. 12 paper in the advanced online publication of the journal Nature Materials. It is the first such material made out of inorganic single crystalline semiconductors.

A touch-sensitive artificial skin would help overcome a key challenge in robotics: adapting the amount of force needed to hold and manipulate a wide range of objects.

"Humans generally know how to hold a fragile egg without breaking it," said Javey, who is also a member of the Berkeley Sensor and Actuator Center and a faculty scientist at the Lawrence Berkeley National Laboratory Materials Sciences Division. "If we ever wanted a robot that could unload the dishes, for instance, we'd want to make sure it doesn't break the wine glasses in the process. But we'd also want the robot to be able to grip a stock pot without dropping it."

A longer term goal would be to use the e-skin to restore the sense of touch to patients with prosthetic limbs, which would require significant advances in the integration of electronic sensors with the human nervous system.

Previous attempts to develop an artificial skin relied upon organic materials because they are flexible and easier to process.

"The problem is that organic materials are poor semiconductors, which means electronic devices made out of them would often require high voltages to operate the circuitry," said Javey. "Inorganic materials, such as crystalline silicon, on the other hand, have excellent electrical properties and can operate on low power. They are also more chemically stable. But historically, they have been inflexible and easy to crack. In this regard, works by various groups, including ours, have recently shown that miniaturized strips or wires of inorganics can be made highly flexible -- ideal for high performance, mechanically bendable electronics and sensors."

The UC Berkeley engineers utilized an innovative fabrication technique that works somewhat like a lint roller in reverse. Instead of picking up fibers, nanowire "hairs" are deposited.

The researchers started by growing the germanium/silicon nanowires on a cylindrical drum, which was then rolled onto a sticky substrate. The substrate used was a polyimide film, but the researchers said the technique can work with a variety of materials, including other plastics, paper or glass. As the drum rolled, the nanowires were deposited, or "printed," onto the substrate in an orderly fashion, forming the basis from which thin, flexible sheets of electronic materials could be built.

In another complementary approach utilized by the researchers, the nanowires were first grown on a flat source substrate, and then transferred to the polyimide film by a direction-rubbing process.

For the e-skin, the engineers printed the nanowires onto an 18-by-19 pixel square matrix measuring 7 centimeters on each side. Each pixel contained a transistor made up of hundreds of semiconductor nanowires. Nanowire transistors were then integrated with a pressure sensitive rubber on top to provide the sensing functionality. The matrix required less than 5 volts of power to operate and maintained its robustness after being subjected to more than 2,000 bending cycles.

The researchers demonstrated the ability of the e-skin to detect pressure from 0 to 15 kilopascals, a range comparable to the force used for such daily activities as typing on a keyboard or holding an object. In a nod to their home institution, the researchers successfully mapped out the letter C in Cal.

"This is the first truly macroscale integration of ordered nanowire materials for a functional system -- in this case, an electronic skin," said study lead author Kuniharu Takei, post-doctoral fellow in electrical engineering and computer sciences. "It's a technique that can be potentially scaled up. The limit now to the size of the e-skin we developed is the size of the processing tools we are using."
http://www.sciencedaily.com/releases/20 ... 151550.htm


An electronic skin.....yuck. :mrgreen:
“Living backwards!” Alice repeated in great
astonishment. “I never heard of such a thing!”
“—but there’s one great advantage in it, that one’s
memory works both ways.”
— Lewis Carroll, Through the Looking-Glass
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Postby mrmonsoon » Mon Oct 04, 2010 1:23 pm

sandra wrote:Engineers Make Artificial Skin out of Nanowires
ScienceDaily (Sep. 12, 2010) — Engineers at the University of California, Berkeley, have developed a pressure-sensitive electronic material from semiconductor nanowires that could one day give new meaning to the term "thin-skinned."


--------------------------------------------------------------------------------
"The idea is to have a material that functions like the human skin, which means incorporating the ability to feel and touch objects," said Ali Javey, associate professor of electrical engineering and computer sciences and head of the UC Berkeley research team developing the artificial skin.

The artificial skin, dubbed "e-skin" by the UC Berkeley researchers, is described in a Sept. 12 paper in the advanced online publication of the journal Nature Materials. It is the first such material made out of inorganic single crystalline semiconductors.

A touch-sensitive artificial skin would help overcome a key challenge in robotics: adapting the amount of force needed to hold and manipulate a wide range of objects.

"Humans generally know how to hold a fragile egg without breaking it," said Javey, who is also a member of the Berkeley Sensor and Actuator Center and a faculty scientist at the Lawrence Berkeley National Laboratory Materials Sciences Division. "If we ever wanted a robot that could unload the dishes, for instance, we'd want to make sure it doesn't break the wine glasses in the process. But we'd also want the robot to be able to grip a stock pot without dropping it."

A longer term goal would be to use the e-skin to restore the sense of touch to patients with prosthetic limbs, which would require significant advances in the integration of electronic sensors with the human nervous system.

Previous attempts to develop an artificial skin relied upon organic materials because they are flexible and easier to process.

"The problem is that organic materials are poor semiconductors, which means electronic devices made out of them would often require high voltages to operate the circuitry," said Javey. "Inorganic materials, such as crystalline silicon, on the other hand, have excellent electrical properties and can operate on low power. They are also more chemically stable. But historically, they have been inflexible and easy to crack. In this regard, works by various groups, including ours, have recently shown that miniaturized strips or wires of inorganics can be made highly flexible -- ideal for high performance, mechanically bendable electronics and sensors."

The UC Berkeley engineers utilized an innovative fabrication technique that works somewhat like a lint roller in reverse. Instead of picking up fibers, nanowire "hairs" are deposited.

The researchers started by growing the germanium/silicon nanowires on a cylindrical drum, which was then rolled onto a sticky substrate. The substrate used was a polyimide film, but the researchers said the technique can work with a variety of materials, including other plastics, paper or glass. As the drum rolled, the nanowires were deposited, or "printed," onto the substrate in an orderly fashion, forming the basis from which thin, flexible sheets of electronic materials could be built.

In another complementary approach utilized by the researchers, the nanowires were first grown on a flat source substrate, and then transferred to the polyimide film by a direction-rubbing process.

For the e-skin, the engineers printed the nanowires onto an 18-by-19 pixel square matrix measuring 7 centimeters on each side. Each pixel contained a transistor made up of hundreds of semiconductor nanowires. Nanowire transistors were then integrated with a pressure sensitive rubber on top to provide the sensing functionality. The matrix required less than 5 volts of power to operate and maintained its robustness after being subjected to more than 2,000 bending cycles.

The researchers demonstrated the ability of the e-skin to detect pressure from 0 to 15 kilopascals, a range comparable to the force used for such daily activities as typing on a keyboard or holding an object. In a nod to their home institution, the researchers successfully mapped out the letter C in Cal.

"This is the first truly macroscale integration of ordered nanowire materials for a functional system -- in this case, an electronic skin," said study lead author Kuniharu Takei, post-doctoral fellow in electrical engineering and computer sciences. "It's a technique that can be potentially scaled up. The limit now to the size of the e-skin we developed is the size of the processing tools we are using."
http://www.sciencedaily.com/releases/20 ... 151550.htm


An electronic skin.....yuck. :mrgreen:



I get two things from this.

1) This will be directly used on future robots so they look human.
2) This "MAY" be able to be used as skin replacement-for like burn victums...
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Postby sandra » Mon Oct 04, 2010 2:20 pm

Yeah...
The E-skin is far more advanced, it can give sense of pressure and touch to even artificial limbs.
Its a much Thinner artificial skin which can cut healing time and number of operations necessary for burn patients. And then there is 'Cultured skin', technicians can take a small maybe one inch by one of real skin and grow it under cultured conditions to the size needed to cover an entire body in just three weeks!! Sounds very efficient but for burn patients, the more severe cases, need the dead skin removed and replaced with a new covering almost immediately.

Back in 2000 artificial skins had dropped death rate from 100% to 40% with patients who had severe burns covering more than 70% of their body. At one time even a 50% cover of burn was deemed fatal. Whats terrible but just reality is that one of the biggest lags in these developments of making these artificial skins accessible is profit. They have had to see it as a big money maker first, and the costs of these artificial skins are ungodly same as with producing them. Really if cultured skin in such small peices can grow to the size needed to cover an entire body in three weeks, why don't we have a bunch of skin donaters out there....the victims would then have the amount needed as they came in. Just make an entire facility dedicated to growing skin, right? :mrgreen: :?

Forget the robots!
“Living backwards!” Alice repeated in great
astonishment. “I never heard of such a thing!”
“—but there’s one great advantage in it, that one’s
memory works both ways.”
— Lewis Carroll, Through the Looking-Glass
User avatar
sandra
 
Posts: 3702
Joined: Fri Dec 04, 2009 6:27 pm
Location: Minnesota US

Postby mrmonsoon » Mon Oct 04, 2010 3:29 pm

sandra wrote:Yeah...
The E-skin is far more advanced, it can give sense of pressure and touch to even artificial limbs.
Its a much Thinner artificial skin which can cut healing time and number of operations necessary for burn patients. And then there is 'Cultured skin', technicians can take a small maybe one inch by one of real skin and grow it under cultured conditions to the size needed to cover an entire body in just three weeks!! Sounds very efficient but for burn patients, the more severe cases, need the dead skin removed and replaced with a new covering almost immediately.

Back in 2000 artificial skins had dropped death rate from 100% to 40% with patients who had severe burns covering more than 70% of their body. At one time even a 50% cover of burn was deemed fatal. Whats terrible but just reality is that one of the biggest lags in these developments of making these artificial skins accessible is profit. They have had to see it as a big money maker first, and the costs of these artificial skins are ungodly same as with producing them. Really if cultured skin in such small peices can grow to the size needed to cover an entire body in three weeks, why don't we have a bunch of skin donaters out there....the victims would then have the amount needed as they came in. Just make an entire facility dedicated to growing skin, right? :mrgreen: :?

Forget the robots!



I agree that helping people is more important, that said.....

Think of how robot hands that can sense touch, how much, temp..... might benefit mankind.

A robotic surgeons hand....

Either driven by software or a doctor across the planet.
mrmonsoon
 
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Postby Tairaa » Fri Dec 31, 2010 10:05 am

Neat.
"George Bush says he speaks to god every day, and christians love him for it. If George Bush said he spoke to god through his hair dryer, they would think he was mad. I fail to see how the addition of a hair dryer makes it any more absurd."
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Postby bionic » Fri Dec 31, 2010 10:08 pm

between this...virtual worlds/game worlds..and cute, lifelike Japanese robots..and the growing number of sex addicts out there...
well..the sex industry will benefit
“Whether you sniff it smoke it eat it or shove it up your ass the result is the same: addiction.”
― William S. Burroughs
(love&forgive yourself..and everyone else)
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Postby Tairaa » Sat Jan 01, 2011 1:14 pm

Never thought about it that way... But...

That is an idea that will probably come to fruitation.
"George Bush says he speaks to god every day, and christians love him for it. If George Bush said he spoke to god through his hair dryer, they would think he was mad. I fail to see how the addition of a hair dryer makes it any more absurd."
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