Nanotech, Chem and Materials
Scientists have discovered superconductivity in a most unlikely place: the highly radioactive element used to make nuclear weapons. In an article set to appear Thursday in the journal Nature, a group of researchers, including a University of Florida physicist, report discovering a plutonium-based electrical superconductor. The finding is significant because plutonium, the active ingredient in atomic bombs, has physical properties that should prevent it from behaving as a superconductor - suggesting current theories about this phenomenon may not apply to this element.
Scientists have coupled the protein that makes fireflies glow with a device similar to a home video camera to eavesdrop on cellular conversations in living mice. The team's research will allow scientists to study how cellular proteins talk to one another. These communications trigger changes that regulate a healthy body and cause disease when the signals go awry. The findings may speed development of new drugs for cancer, cardiovascular diseases and neurological diseases.
Researchers have created a tiny motor that they can turn on and off at will, bringing scientists one step closer to using such devices to repair cellular damage, manufacture medicines and attack cancer cells. As reported in this month's Nature Materials, the researchers have developed a chemical switch that gives them control over a biomolecular motor just 11 nanometers, or 11 billionths of a meter, in size ? hundreds of times smaller than the width of a human hair.
Duke University chemists say they've come up with a way to grow carbon nanotubes --- a.k.a. Buckytubes --- that vary in size far less than those produced previously. The technique could help with the development of nanostructures with electronic properties reliable enough to use in molecular-sized circuits.
Aluminum -- one of nature's best conductors of electricity conductors of electricity -- may behave like a ceramic or a semiconductor in certain situations, according to an Ohio State University scientist and his colleagues. Among the findings that appear in the current issue of the journal Science: When it comes to forming tiny structures in computer chip circuits and nanotechnology, aluminum may endure mechanical stress more than 30 percent better than copper, which is normally considered to be the stiffer metal
Researchers in Ohio say they've come up with a way to shape metal using powerful magnetic fields, a process that could help cut down on the use of toxic lubricants otherwise needed to stamp products as diverse as auto parts and kitchenware. Said one of the researchers: "The process has to be reliable, and require as little human intervention as possible.... In automobile production especially, manufactures need to make parts in as few steps as they possibly can. I think we can do a lot of good things for industry with this technique."
FROM THE TRENCHES: A new study by Rice University suggests bioengineers may be able to create the mechanical stimulation needed to grow bone outside the body. The trick appears to be stressing the sample out --- literally. In the absence of mechanical stress, lab grown bone is brittle and thin. But when created under proper conditions, it emerges thick and well-developed.
On the plus side (Eds: see the minus side below), Hewlett-Packard today is set to announce what it describes as a breakthrough in building nano-sized computer memory. The company has developed a technique for building a matrix of super-thin platinum wires atop a piece of silicon. So small is the resulting 64-bit memory unit that 1,000 of them could fit on the end of a single strand of hair. Even in the world of PCs, that's small.
Intel is set to disclose some of its plans in nanotechnology, sure to be key to the company's chips for decades to come. As reported by CNET's News.com, Sunlin Chou, senior VP of technology and manufacturing, will discuss some of the plans next week at the Intel Developer Forum in San Jose. Topping the topics likely to be covered: Carbon nanotubes and multigate transistors. Nanotubes are strings of carbon atoms tightly bonded together that show promise in manufacturing everything from tennis rackets to electronics. In computer chips, they can theoretically be used to replace the wispy metal wires that now define a chip's circuitry. That could make processors smaller and cheaper. Multigate transistors, meanwhile, are a way of addressing the conundrum faced by all chipmakers: The more powerful processors become, the more electricity must flow through them. But as chips shrink in size, the extremely small transistors that control this flow are growing overloaded, something like hooking up a fire hose to a Waterpik nozzle, as CNET puts it. One way around that is to give each transistor more than one gate, an approach that IBM is using in some of its products already. Although analysts say they doubt Intel will copy this entirely, the company likely has a similar approach up its sleeve.
Richard Feynman once said that all the information in all the books in the world could theoretically fit in a cube 1/200th of an inch on a side. Looks like he got it right, says Technology Research News. Reporting on advances in data storage, the magazine says researchers at the University of Wisconsin, Madison have demonstrated the successful use of single silicon atoms to represent the ones and zeroes that are modern data storage. The result, in theory, is the ability to store the equivalent of 7,800 DVDs in one square inch of material. Engineering limitations mean writing atomic bits is impractically slow at the moment. But the Madison work is a realistic analysis of bit stability and recording density, says one scientist who has examined the work.
Oh, to be as well-regarded and useful as recently departed polymer chemist William Mallow. Mallow, the man credited with inventing clumping cat litter and perfecting Liquid Paper, was remembered this week by family and friends as a scientist with a knack for practicality. In addition to litter and white-out, Mallow worked on the space shuttle's heat-resistant tiles, developed a way to artificially age Scotch whiskey and improved the rubber skin used on robot dinosaurs at Walt Disney World, Reuters reports.
"He was a people's chemist," said Dr. Robert Bass, a colleague at the Southwest Research Institute. While at the institute, Mallow also helped Liquid Paper inventor Bette Nesmith Graham perfect the white goo. (Nesmith Graham, it should be noted, is the mother of former Monkees member Michael Nesmith).
Mallow's latest project was a military-grade slip-n-slide gel called the Mobility Denial System. Meant to foil attacks on government buildings and control crowds, "it can be sprayed on any surface and causes people to slip and fall and prevents vehicles from getting traction."
Mallow, a native of Akron, Ohio, died of leukemia at age 72 in a San Antonio hospital on Tuesday, Reuters says.
Computer chips have been shrinking for years. But who stops to consider that that's only been possible because the stuff on the chips, like circuits, transistors and memory have shrunk too? To keep the trend going, Germany's Infineon has joined Advanced Micro Devices and United Microelectronics Corp. to develop technology to produce the tiny structures needed inside chips. As the number of elements on a chip doubles approximately every year, "chipmakers are under pressure to develop new microelements to fit on (them)," Reuters reports. Currently, the size of the smallest element on a chip is 130nm. The three-way alliance will focus on developing a 65nm and 45nm manufacturing process.
