Microscopic Radio Sets Miniaturization Record

Since its advent in the early 20th century, the radio receiver has shrunken dramatically from the clunky wooden "cathedral" design of the 1930s to devices you can slip in your pocket.

Future radios could be invisible to the naked eye altogether.

Researchers led by Alex Zettl at the University of California, Berkeley have crafted a fully working radio receiver from a single carbon nanotube 10,000 times thinner than a human hair.

Carbon nanotubes are man-made microscopic mesh rods composed entirely of carbon atoms.

Fixed between two electrodes, the nanotube vibrates and performs the four critical roles required to receive radio waves: antenna, tunable filter, amplifier and demodulator.

Power is supplied by streaming electrons from an attached battery.

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Its inventors have already used it to pick up two songs: "Layla" by Derek and the Dominos and "Good Vibrations" by the Beach Boys.

The team beat another group at the University of California, Irvine, which announced last month they had created a demodulator, which converts AM radio signals into electrical signals, out of a carbon nanotube. But that device was only part of what's needed to make a radio.

The Berkeley team says its microscopic radio, detailed in the journal Nano Letters, could be used to create radio-controlled devices capable of swimming in the human bloodstream and other novel applications.

The work was funded by the National Science Foundation and the U.S. Department of Energy.

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