Würzburg physicists are global leaders in the creation of sophisticated nanostructures. The fruits of their research could make tap-proof data transmission a possibility in the future.
Scientists from the MESA+ Institute for Nanotechnology of the University of Twente and the FOM Foundation have succeeded in transferring magnetic information directly into a semiconductor. For the first time, this is ach...
JPK Instruments, a world-leading manufacturer of nanoanalytic instrumentation for research in life sciences and soft matter, has joined the sponsors of the German Museum of Masterpieces of Technology and Science in Munich by donating a NanoWizard® atomic force microscope worth 150,000 euros.
The Norwegian company Advanced Marine Coatings based in Gamle Fredrikstad specializes in the development of environmentally compatible, heavy-duty anti-corrosion coatings for sea-going vessels. The "Green Ocean Coat...
CONTACT is a 4-year project involving 10 partners from 7 countries. Coordinated by the Fraunhofer ICT and funded by the EU, 15 PhD students and 3 post docs will focus their research on nanomaterials, processes, characterisation methods and simulation tools.
Park Systems Corp., the inventor of the Crosstalk Eliminated (XE) AFM technology and a leading nanotechnology solutions partner for research and industry, today announced that its new 3D AFM patent applications have been...
Most people would like to be able to charge their cell phones and other personal electronics quickly and not too often. A recent discovery made by UC San Diego engineers could lead to carbon nanotube-based supercapacitors that could do just this.
The National Institute of Environmental Health Sciences (NIEHS), part of the National Institutes of Health, is increasing its investment in understanding the potential health, safety and environmental issues related to t...
Two-dimensional carbon layers, so-called graphenes, are regarded as a possible substitute for silicon in the semiconductor industry. The electronic properties of these layers can be varied by "building in" specific arrays of holes in their structure.
Vibrations in nanostructures offer applications in molecular-scale biological sensing and ultrasensitive mass detection. To approach single-atom sensing, it is necessary to reduce the dimensions of the structures to the nanometer scale while preserving long-lived vibrations.
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