A joint team of researchers at CIC nanoGUNE (San Sebastian, Spain) and the Max Planck Institutes of Biochemistry and Plasma Physics (Munich, Germany) report the non-invasive and nanoscale resolved infrared mapping of strain fields in semiconductors.
Using two simultaneous light-based probing techniques at the U.S. Department of Energy' (DOE) Brookhaven National Laboratory, a team of researchers has illuminated important details about a class of enzymes involved in everything from photosynthesis to the regulation of biological clocks.
Europe's largest annual nanotechnology conference and exhibition, Nanotech Northern Europe moves to Berlin, Germany's capital city at the heart of Europe becoming Nanotech Europe. In its fifth year, Nanotech Euro...
Modern electronics is built upon the control of electric charges through an electric field. Computing based on photons rather than electrons, on the other hand, promises significantly faster computation and information processing. An international team of researchers has now developed a theoretical system that would allow single photons to be controlled reliably.
With Laser TIRF 3, Carl Zeiss infuses its imaging system for Total Internal Reflection Fluorescence microscopy with an entirely new level of quality. The TIRF system is suitable for reproducible microscopic examinations of near-cell membrane dynamic processes and interactions of single molecules in cell-free systems with high time resolution.
Researchers at the Harvard School of Engineering and Applied Sciences (SEAS) have discovered a way to synthesize and control the formation of nanobristles, akin to tiny hairs, into helical clusters and have further demonstrated the fabrication of such highly ordered clusters, built from similar coiled building blocks, over multiple scales and areas.
Orlando Auciello of the U.S. Department of Energy's Argonne National Laboratory has been awarded the distinction of Fellow by the American Association for the Advancement of Science (AAAS). Election as a Fellow is an honor bestowed upon AAAS members by their peers.
Scientists in Sweden have discovered new ways to control the growth and structure of nanowires at the single-atom level. Their findings, which provide major insights into materials physics, have come out of the NODE (' Nanowire-based one-dimensional electronics') project, funded with approximately EUR 9.5 million under the EU's Sixth Framework Programme (FP6).
Research and Markets has announced the addition of the "Perspectives of Nanoscience and Nanotechnology" report to their offering.
Selected, peer reviewed papers from Acta Materialia Gold Medal Workshop, E-M...
Using a beam of light shunted through a tiny silicon channel, researchers have created a nanoscale trap that can stop free floating DNA molecules and nanoparticles in their tracks. By holding the nanoscale material steady while the fluid around it flows freely, the trap may allow researchers to boost the accuracy of biological sensors and create a range of new 'lab on a chip' diagnostic tools.
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