In an interesting feat of nanoscale engineering, researchers at Lund University in Sweden and the University of New South Wales have made the first nanowire transistor featuring a concentric metal 'wrap-gate' that sits horizontally on a silicon substrate.
The arrays of fine adhesive hairs or 'setae' on the foot pads of many insects, lizards and spiders give them the ability to climb almost any natural surface. Research by James Bullock and Walter Federle from the University of Cambridge in England found that the different forces required to peel away these adhesive hairs from surfaces are what allows beetles to adhere to diverse surfaces, thereby reducing the risk of detachment.
When it comes to packaged fish or meat, it is nearly impossible to distinguish between fresh goods and their inedible counterparts. Researchers have now developed a sensor film that can be integrated into the package itself, where it takes over the role of quality control. And if the food has spoiled, it changes color to announce the fact.
Elsevier, a world-leading publisher of scientific, technical and medical information products and services, today announced the launch of the "Apps for Science" challenge, an international competition challenging software developers to create customized applications that enhance information search and discovery for researchers.
Unlike many conventional chemical detectors that require an external power source, Lawrence Livermore researchers have developed a nanosensor that relies on semiconductor nanowires, rather than traditional batteries. The device overcomes the power requirement of traditional sensors and is simple, highly sensitive and can detect various molecules quickly.
A consortium formed by Brown University and the University of Rhode Island has invited industry leaders to explore partnerships and the job-creating potential of nanotechnology, a cutting-edge branch of science that has produced materials found in products from cosmetics to computer chips.
Battery technology hasn't kept pace with advancements in portable electronics, but the race is on to fix this. One revolutionary concept being pursued by a team of researchers in New Zealand involves creating "wearable energy harvesters" capable of converting movement from humans or found in nature into battery power.
Queen's researchers have discovered that nanoparticles, which are now present in everything from socks to salad dressing and suntan lotion, may have irreparably damaging effects on soil systems and the environment.
At Karlsruhe Institute of Technology (KIT), researchers of the DFG Center for Functional Nanostructures succeeded in specifically cultivating cells on three-dimensional structures. The fascinating thing is that the cells are offered small "holds" in the micrometer range on the scaffold, to which they can adhere. Adhesion is possible to these holds only, not to the remaining structure.
Participants of this year's edition of the European Commission's Nano - Safety for Success Dialogue met under the heading of assessing the science and issues at the science / regulation interface. The event, organised by Health and Consumers Directorate General of the European Commission, took place in Brussels on 29-30 March 2011.