Humans and machines could be one step closer to merging thanks to a new transistor controlled by the molecule that powers biological cells.
The nano-sized device could be used in medical devices or prosthetics wired directly into the human body.
"Our devices make a bridge between the biological world and the electronic world," said Aleksandr Noy, who developed the transistor along with colleagues at Lawrence Livermore National Laboratories in California. "In effect, we made a biological protein talk directly with a nanoelectronic circuit."
Transistors are electronic components that can modulate or switch current on and off in a circuit. To make one that would respond to a biological molecule, Noy and his team borrowed from living cells.
First, they built the backbone of the transistor out of a carbon nanotube between two electrodes. Next, they insulated the electrodes and covered the nanotube with a mixture of fatty molecules called lipids and proteins. The covering formed a lipid "bilayer" — a double lipid membrane — much like those that make up the outer membranes of biological cells.
The researchers then poured a solution of sodium ions, potassium ions and adenosine triphosphate, or ATP, over the transistor while running a voltage through it. In cells, ATP is the primary source of energy. It fulfilled the same role in the transistor, powering the proteins embedded in the lipid bilayer.
These proteins began working, transferring sodium and potassium ions across the bilayer. The charges from the ions created an electrical field around the transistor, which then changed the ability of the transistor to conduct electricity by as much as 35 percent. The higher the concentration of ATP, the more the conductivity changed.
Getting a biological molecule to control the electric current in a transistor is a first step toward computers that would interface directly with the brain, Noy told TechNewsDaily. ...
via New Transistor Bridges Human-Machine Gap | LiveScience.
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Thursday, May 20, 2010
New Transistor Bridges Human-Machine Gap
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biology,
Technology
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