April 14, 2003
NASA Ames Research Center, Moffett Field, Calif.
Phone: 650/604-5026 or 650/604-9000
NASA HOPES TO IMPROVE COMPUTERS WITH TINY CARBON TUBES ON SILICON CHIPS
The life of the silicon chip industry may last 10 or more years longer, thanks to a new manufacturing process developed by NASA scientists.
The novel method, announced in the April 14 issue of the journal Applied Physics Letters, includes use of extremely tiny carbon nanotubes instead of copper conductors to interconnect parts within integrated circuits (ICs). Carbon nanotubes are measured in nanometers, much smaller than todays components. A nanometer is roughly 10,000 times smaller than the width of an average human hair. ICs are very small groups of electronic components made on silicon wafers.
NASA needs high-performance computing in small packages for future autonomous spacecraft, said Meyya Meyyappan, director of the Center for Nanotechnology at NASA Ames Research Center in Californias Silicon Valley and coauthor of the article. The bottom line is that computer chips with more layers and smaller components can do more for us. While we are working on carbon nanotube-based chips for long-term needs, we also are indirectly helping industry to keep silicon-based computer chips in use as long as possible.
One advantage of using carbon nanotube interconnects within integrated circuits is that these interconnects have the ability to conduct very high currents, more than a million amperes of current in a one square centimeter area without any deterioration, which seems to be a problem with todays copper interconnects, said Jun Li, lead scientist of the team at NASA Ames that developed the new process. Also, there is no need to create deep, narrow trenches on silicon wafers in which to bury copper conductors, a step that also is becoming a problem as components are made smaller and smaller, Li added.
Our process allows us to use the tiny carbon nanotubes to replace copper to interconnect network layers on silicon chips, Meyyappan said. We think this new process may well help to sustain the Moores Law growth curve.
Moores Law stemmed from an observation made by computer chip pioneer Gordon Moore in 1964 that the number of transistors in a given area of an IC had doubled every year since its invention. Moore predicted the trend would continue at a rate of about 18 months between doublings. Continuing down this doubling path is becoming increasingly difficult, according to Meyyappan.
Roadblocks exist in several common technologies such as interconnects, lithography and others currently used to make the chips, he said. However, I think our new process could be in use by industry for the next generation of ICs, removing some of these roadblocks, Meyyappan added.
Using the new process, manufacturers will be able to add more cake-like layers of components to silicon chips to increase computer capability, Li said. Because coppers resistance to electricity flow increases greatly as the metals dimensions decrease, there is a limit to how small copper conductors can be. In contrast, extremely tiny carbon nanotubes can substitute for copper conductors in smaller computer chip electronic configurations because carbon nanotube electrical resistance is not high.
The new process includes growing microscopic, whisker-like carbon nanotubes on the surface of a silicon wafer by means of a chemical process. Researchers deposit a layer of silica over the nanotubes grown on the chip to fill the spaces between the tubes. Then the surface is polished flat. Scientists can build more multiple, cake-like layers with vertical carbon nanotube wires that can interconnect layers of electronics that make up the chip.
More information about NASA nanotechnology can be found on the Internet at: http://www.ipt.arc.nasa.gov
Sound files suitable for radio broadcast are available at:
http://amesnews.arc.nasa.gov/audio/nanoconnsound/nanoconnsound.html, and publication size images are at:
To see an archived webcast lecture by Meyya Meyyappan, 'Bio/Nano and Other Breakthrough Technologies,' a general overview of nanotechnology, please visit:
For more information about NASA, visit: http://www.nasa.gov
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