Someday, your car might have the metallic finish of some insects or the deep black of a butterfly's wing, and the reflectors might be patterned on the nanostructure of a fly's eyes, according to Penn State researchers who have developed a method to rapidly and inexpensively copy biological surface structures.
Samuel Krinsky, a physicist at the U.S. Department of Energy's Brookhaven National Laboratory, has won thee 2008 Free Electron Laser (FEL) Prize. Sponsored by the FEL Conference, which was held this year in Gyeungju, Korea, the prize consists of an award citation, a plaque, and approximately $3,000.
Nanoscience Instruments, the premiere US-based distributor of nanotechnology instrumentation, today announced the worldwide distribution of the Nascatec line of Atomic Force Microscopy (AFM) probes and sensors.
A new advance in cellular imaging is allowing scientists to better understand the movement of cells in the area around tumors, also known as the tumor microenvironment. In a recent article published in Disease Models + M...
NuGEN Technologies, Inc., a privately held company that develops and commercializes nucleic acid amplification and sample preparation systems, and the Hamilton Company, a world leader in precision liquid handling announc...
It's not easy to see a single molecule inside a living cell. Nevertheless, researchers at Lawrence Livermore National Laboratory are helping to develop a new technique that will enable them to create detailed high-resolution images, giving scientists an unprecedented look at the atomic structure of cellular molecules.
Materials deep inside Earth have unexpected atomic properties that might force earth scientists to revise their models of Earth's internal processes, a team of researchers has discovered.
The researchers recreated...
Imago Scientific Instruments announced today that its LEAP® family of atom-probe microscopes is a recipient of the prestigious R+D 100 Award for 2008. A panel of industry experts appointed by Research and Development...
When matter is hit by a laser-beam, the effects on the molecules can be dramatic, particularly for short pulses of high-intensity radiation. In a quest to push the limits of intensity to achieve extreme light-matter interactions in large molecules, a team of researchers from RIKEN's Advanced Science Institute in Wako, the SPring-8 Center in Harima, and the University of Tokyo, has demonstrated the ionisation and consequently the dissociation of nitrogen molecules using a free-electron laser.
Wales is investing in the research and development of this new technology that could be worth more than $1 trillion worldwide in less than a decade, First Minister Rhodri Morgan told an international conference of scient...
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