Nanotechnology initiative at MIT

David Lackner writes with news of the MIT School of Engineering's Tiny Technologies Initiative. In addition to more generic nanoscale science projects, the research includes Nano-Mechanical Systems: "Examples of exciting projects include tiny microturbines, artificial muscles, and a nanorobot designed to manipulate individual molecules on materials' surfaces."

Nanotechnology a high priority for Pentagon

"Pentagon official says nanotechnology a high priority" reports that Clifford Lau, the senior science adviser in the Pentagon's office of basic research, said "Nanotechnology is one of the highest priority science and technology programs in the Defense Department," with the Pentagon spending $315 million in fiscal 2004 on all nanotechnology research. The specific projects cited are all near-term nanoscale science projects, mostly materials, like lightweight, radar-resistant nanocomposite materials for airframes and coatings to eliminate barnacle buildup on submarines. Foresight Founder and President Christine L. Peterson adds "This piece mentions that 'Pentagon interest in nanotechnology dates to the 1980s'. We at Foresight can back this up, as we were the only ones discussing nanotechnology back then, and we did indeed hear from military types quite early on."

Medical nanorobot meeting at USC

BioNEMS Symposium, May 22, 2004, Davidson Conference Center, University of Southern California, Los Angeles, CA USA. "A one-day symposium on the biomedical applications of nanoelectromechanical systems (bioNEMS), sponsored by the Center for Interdisciplinary Research of the University of Southern California (USC) and the National Cancer Institute (NCI). …The emphasis throughout the day will be on nano (not micro) systems, and in vivo (not in vitro) applications. A full-fledged nanosystem (e.g., a nanorobot) is expected to have overall dimensions on the order of a micrometer but will be made from nanoscale components with sizes ~ 1-100 nm."

Laser based nanoscale milling

RobertBradbury writes "The Univ. of Michigan has announced the ability to do nanoscale milling (down to 20nm) using ultra-short laser pulses. Interestingly according to the abstract they aren't exactly sure how it works. This is a new approach to top-down nanotechnology (lithography is also top-down and is currently pushing towards 70nm). In contrast biotechnology, mechanosynthesis and complex chemical methods can be considered bottom-up methods. From a size scale perspective 20nm is slightly smaller than a ribosome and roughly the diameter of Eric's nanomanipulator arm described in Nanosystems (Figure 13.11). So a top-down milling machine methodology might allow the production of a scaled-up nanomanipulator arm which in turn could be used to produce increasingly smaller versions of itself."

Nanotechnology Brainstorm Ahead – May 14-16

The Foresight Vision Weekend is only a month away. This is the place to speak openly and brainstorm with others who envision a revolutionary nanotechnology future. What aspect of our nanotech future most excites you — repairing the human body, ending chemical pollution, creating economic abundance, developing space resources, delivering basic necessities — like clean water — to the developing world…or how about a personal role in making all this happen?

Nano-hive hits version 1.0.0

Anonymous Coward writes " Nano-hive has hit version 1.0.0 and released a source and binary package. Nano-hive aims to be a plugable distributed nano-simulation architechture. At the moment the release is aimed at developers and single workstation applications, in the future there will be quantum simulation plugins and better support for distributed computation."

Long nanotubes fabricated

WillWare writes "Nature reports that Alan Windle and colleagues at the University of Cambridge, UK, have created unusually long nanotubes. "The team mix ethanol ó the carbon source ó with a catalyst called ferrocene and another chemical called thiophene that helps the threads to assemble. The mixture is squirted into a hot furnace in a jet of hydrogen gas. Nanotubes form as a tangled mass, rather like candyfloss, and are then wound onto a spindle to form strands… So far, the fibres aren't outstandingly strong ó they're no better than typical textile fibres. But Windle thinks that there's still plenty of scope for improving the process to make stronger fibres, for example by finding ways to make the nanotubes line up better. In Kevlar it's the good alignment of molecules that generates the high strength.""

Nanotechnology's Debut on the Cereal Box!

Gina Miller writes "Tired of re-reading those same old boring statistics on your cereal box, well I bet you would have loved to have this one on your breakfast table this morning! The German division of the Kellogg company has afforded room for nanotechnology on the entire backside of their 'Toppas' cereal. Now you see it … (PDF file)."

MIT's Nanoruler Could Impact Chip Manufacturing

Roland Piquepaille writes "Researchers from the Massachusetts Institute of Technology (MIT) have devised the world?s most precise ruler, able to draw parallel lines separated by only a few hundred nanometers with a precision of under a nanometer. This has the potential to have a great influence on fields such as computer chips manufacturing as well as space physics. And, as says the MIT, this is a promising line of work. "The Nanoruler is 10 to 1,000 times faster and more precise than other methods for patterning parallel lines and spaces (known collectively as gratings) across large surfaces more than 12 inches in diameter. Such large surfaces are key to a number of applications involving gratings, such as larger wafers for the production of computer chips and higher-resolution space telescopes." This summary contains more details and references."

Mapping location of nanotechnology companies

Bmelki writes "Nanovip.com has established comparative statistics from the number of nanotechnology companies that we have in our database. The companies were sorted by country and American state, then put into graphics. At this stage, America is the leading country by far; California being the leading state with the most nanotechnology involved companies."

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