A new grant from the National Science Foundation (NSF) will support 30 graduate students working in the Cornell Center for Materials Research (CCMR) on the development of materials to advance sustainable living. The stud...
The Australian research community will soon have access to one of the most powerful nanotechnology instruments in the world, able to write and etch data on particles ten thousand times smaller than the width of a human h...
Scientists at the U.S. Department of Energy’s (DOE) Brookhaven National Laboratory have patented a new method to remove toxic mercury from soil, sediment, sludge and other industrial waste.
This year's Julius Springer Prize for Applied Physics will be awarded to Professor Motoichi Ohtsu for his pioneering and seminal work on nanophotonics and near field optics as well as for the development of innovativ...
Molecules of hydrogen are difficult to steer with electric fields because of the symmetrical way that charges are distributed within them. But now researchers at ETH Zurich have found a clever technique to get a grip on the molecules.
Astrid Skreosen has worked for many years as an auxiliary nurse in the maternity ward in Skien Hospital. She became fed up with the little mats which were supposed to lie under women who were giving birth, and were intended to soak up waste products and fluids.
This unique class of materials is commanding much attention now because they can display properties such as colossal magnetoresistance and high-temperature superconductivity, which are highly coveted by the high-tech industry.
Imagine a polka-dotted postage stamp that can sniff out poisonous gases or deadly toxins simply by changing colors.
This gives them important new insights in the nanoscale structure of polymer solar cells and its effect on the performance. The findings were published online in Nature Materials on Sunday 13 September.
Researchers at The University of Nottingham have a new weapon in their arsenal of tools to push back the boundaries of science, engineering, veterinary medicine and archaeology. From soils and sediments, to chunks of pavement, archaeological remains and chocolate bars... the Nanotom, the most advanced 3D X-ray micro Computed Tomography (CT) scanner in the world, will help scientists from a wide variety of departments across the University literally see through solids.
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