carbon nanotubes
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UCLA researchers create self-healing, power-generating artificial muscle
We've seen self-healing materials and artificial arms, but a team of researchers hailing from UCLA have taken two fabulous ideas and wed them together to create "an artificial muscle that heals itself and generates electricity." Put simply, the contracting / expanding of the material can generate a small electric current, which can be "captured and used to power another expansion or stored in a battery." The scientists have relied on carbon nanotubes as electrodes rather than metal-based films that typically fail after extended usage, and in an ideal world, the research could eventually lead to (more) walking robots and highly advanced prosthetics. Integrate an AC adapter in there and we're sold.[Via CNET]
Boron nanotubes beat carbon at its own game
If 2007 was the year of the carbon nanotube, it looks like 2008 could be the year for boron nanotubes to shine. Carbon nanotubes have been sprouting up in all sorts of tech that requires strong building blocks and fast electronics at the microscopic scale, but boron nanotubes, which were discovered in 2004, are looking even better at electronics, while matching carbon in the strength department. Researchers at Tsinghua University in Beijing, China have proved in simulation that the boron nanotubes can have variable electrical properties, which could make boron the jack of all trades at the nano scale, but that's about as far as we go with this whole "science" thing. Bill Nye would be so disappointed in us.
Berkeley researchers develop world's smallest radio
Move over, UC Irvine: your colleagues across the state at UC Berkeley have just one-upped your nano-scale radio by not only using nanotechnology for the demodulator, but actually "stuffing" all the components into a single carbon nanotube. By utilizing mechanical -- rather than electrical -- vibrations of a nanotube protruding from an electrode, the team from Berkeley and the Lawrence Berkeley National Laboratory were able to mimic the tuner, antenna, amplifier, and demodulator which compose traditional radios. Their prototype nano-radio, 10,000 times thinner than a human hair, has already been used to broadcast and receive such classic tunes as Good Vibrations by the Beach Boys and Eric Clapton's Layla; a video of this latter transmission, whose poor quality will make you long for the relative clarity of AM radio, is available after the break...[Via San Francisco Chronicle, image and video courtesy of Zettl Research Group, Lawrence Berkeley National Laboratory and University of California at Berkeley]
Nanotube breakthrough creates scalable transistors
Nanotubes have certainly played their part in various forms of swank gadgetry over the years, but researchers at the University of Illinois, Lehigh University, and Purdue University seem to have upped the ante for future nanotube implementations. Their approach utilizes "dense arrays of aligned and linear nanotubes as a thin-film semiconductor material suitable for integration into electronic devices," which essentially means that the arrays can be transferred into devices where silicon isn't entirely comfortable, such as "flexible displays, structural health monitors, and heads-up displays." Interestingly, the creators aren't expecting their discovery to overtake silicon, but they did mention that the linear arrays could be "added to a silicon chip and exploited for particular purposes, such as higher speed operation, higher power capacity, and linear behavior for enhanced functionality." Sounds like these gurus are just the type Intel would be scouting right about now, eh?[Via TechnologyReview]
Intel researching "carbon nanotubes" for chip design
While Moore's Law has held up pretty well over the last 40 years, it may not be able to stay true forever. It turns out that as the components inside semiconductors get smaller and smaller, electrical resistance goes up, thereby reducing performance; experts say that eventually there will be a breaking point for "copper interconnects," reaching the point where Moore's Law falls apart. Scientists have been well aware of this roadblock, and have invested heavily in everything from quantum computing to optical processors. Intel is also working on a solution for this electrical engineering problem by attempting to determine whether these semiconductor interconnects can be replaced by carbon nanotubes. The ubiquitously researched microscopic tubes can conduct electricity far better than metals, due to their "ballistic conductivity," a property where no electrons are dispersed or blocked. But, the problem with carbon nanotubes, as CNET reports, is that they're really tough to mass produce; once created, some act as great semiconductors, while others don't. So now, Intel has to figure out how to get carbon nanotubes to act more uniformly, or to separate the bad ones from the good. Thankfully, consumers won't have to worry about this problem for about another decade, which is why Intel has brainiacs working on a solution as we speak.[Via Slashdot]
Carbon nanotubes manage 1080p on a 0.7-inch microdisplay
We can't say it was love at first sight for us and carbon nanotube displays, with the first screen cap resembling a Lite-Brite a lot better than a next generation display technology. Well, now we're ready to give this nano tech another chance, since Syscan Imaging has just managed to squeeze a 1920 x 1080 resolution onto a 0.7-inch LCoS microdisplay for use in projection TVs. It's even at a lower cost than competing technologies, and should hopefully overcome some of the current problems with the low yields and color inconsistencies of LCoS. Carbon nanotube displays also run cooler and have zero ghosting, so we're pretty stoked, but we'll have to wait until 2007 for these to make it to shelves.[Via HD Beat]
