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Key: Meeting
Showing releases 1-25 out of 759.
Public Release: 29-Nov-2012
High honor for 2 UC Riverside physicists Two physicists at the University of California, Riverside -- Richard Seto and Jing Shi -- have been elected as fellows of the American Physical Society. Only 250 researchers received the high honor this year. The APS represents more than 50,000 members, including physicists in academia, national laboratories and industry in the United States and throughout the world. Fellowship in the society is limited to no more than one half of one percent of the membership. 
American Physical Society
Contact: Iqbal Pittalwala
Public Release: 29-Nov-2012
Rensselaer professor Shawn-Yu Lin named Fellow of the AAAS Nano-photonics expert Shawn Yu-Lin, professor of physics at Rensselaer Polytechnic Institute and a member of the university's Future Chips Constellation and Smart Lighting Engineering Research Center, has been selected as a fellow of the American Association for the Advancement of Science. Contact: Mary Martialay
Public Release: 29-Nov-2012
Industrial carbon management research gets $3.75 million boost Carbon Management Canada (CMC) has awarded a total of $3.75 million to eight new research projects. Carbon Management Canada (CMC) was established in 2009 as a national network with a mandate to radically reduce carbon emissions in the upstream fossil energy industry and in large stationary emitters. CMC has over 160 investigators, more than 200 graduate students and postdoctoral fellows, network agreements with 28 Canadian academic institutions, and industry and government sponsors.
Carbon Management Canada
Contact: Ruth Klinkhammer
Public Release: 29-Nov-2012
 ScienceHarvard's Wyss Institute team creates versatile 3d nanostructures using DNA 'bricks' Researchers at the Wyss Institute for Biologically Inspired Engineering at Harvard University have created more than 100 three-dimensional nanostructures using DNA building blocks that function like Lego bricks -- a major advance from the two-dimensional structures the same team built a few months ago.
Office of Naval Research, Army Research Office, National Science Foundation, National Institutes of Health, Harvard/Wyss Institute
Contact: Kristen Kusek
Public Release: 28-Nov-2012
ARPA-e awards $130 million for transformation energy technology projects Sixty six cutting-edge research projects have been selected by the Energy Department's Advanced Research Projects Agency-Energy to receive a total of $130 million in funding.
US Department of Energy
Contact: Jeff Sherwood
Public Release: 28-Nov-2012
NatureResearch discovery could revolutionize semiconductor manufacture A completely new method of manufacturing the smallest structures in electronics could make their manufacture thousands of times quicker, allowing for cheaper semiconductors. The findings have been published in the latest issue of Nature. Instead of starting from a silicon wafer or other substrate, as is usual today, researchers have made it possible for the structures to grow from freely suspended nanoparticles of gold in a flowing gas. Contact: Lars Samuelson
Public Release: 28-Nov-2012
U of Minn. receives $1.8 million grant for improving efficiencies in fuel and plastics production The University of Minnesota has been awarded a $1.8 million grant over three years from the Department of Energy's Advanced Research Projects Agency–Energy to develop revolutionary membrane technology that will enable energy-efficient separations in the chemical, petrochemical, water, fossil fuel, and renewable energy industries. When fully implemented, the technology could reduce US energy consumption by as much as 3 percent. Science magazine named initial research as one of the biggest breakthroughs of 2011. Contact: Rhonda Zurn
Public Release: 27-Nov-2012
Fast forward to the past: NASA technologists test 'game-changing' data-processing technology It's a digital world. Or is it? NASA technologist Jonathan Pellish isn't convinced. In fact, he believes a computing technology of yesteryear could potentially revolutionize everything from autonomous rendezvous and docking to remotely correcting wavefront errors on large, deployable space telescope mirrors like those to fly on the James Webb Space Telescope.
NASA
Contact: Lori Keesey
Public Release: 27-Nov-2012
Pioneering electrical engineering work recognized Alexander A. Balandin, a professor of electrical engineering in the Bourns College of Engineering and founding chair of materials science and engineering at the University of California, Riverside has been named an IEEE Fellow for 2013. Contact: Sean Nealon
Public Release: 27-Nov-2012
Developing 'second skin' military fabric to repel chemical and biological agents The researchers say the fabric will be able to switch reversibly from a highly breathable state to a protective one in response to the presence of the environmental threat without the need for an external control system. In the protective state, the uniform material will block the chemical threat while maintaining a good breathability level.
US Defense Threat Reduction Agency
Contact: Janet Lathrop
Public Release: 27-Nov-2012
Surface analysis techniques for advanced materials enhance Mazovia's research potential Properties of several of the most external atomic layers of materials can be studied at Mazovia Centre for Surface Analysis by a number of modern techniques. Just opened at the Institute of Physical Chemistry of the Polish Academy of Sciences, Warsaw, Poland, the Centre provides a spectrum of surface analysis tools including a state-of-the-art scanning electron microscope and specialized spectroscopic equipment for surface studies in high and ultra high vacuum. Contact: Aleksander Jablonski
Public Release: 27-Nov-2012
Nature CommunicationsJames' bond: A graphene/nanotube hybrid A seamless graphene/nanotube hybrid created at Rice University may be the best electrode interface material possible for many energy storage and electronics applications.
Air Force Office of Scientific Research, Lockheed Martin Corp., LANCER IV pro
Contact: David Ruth
Public Release: 26-Nov-2012
Nature CommunicationsPenn researchers make flexible, low-voltage circuits using nanocrystals Electronic circuits are typically integrated in rigid silicon wafers, but flexibility opens up a wide range of applications in a world where electronics are becoming more pervasive. Finding materials with the right mix of performance and manufacturing cost, however, remains a challenge. Now researchers from the University of Pennsylvania has shown that nanoscale particles, or nanocrystals, of the semiconductor cadmium selenide can be "printed" or "coated" on flexible plastics to form high-performance electronics.
US Department of Energy, National Science Foundation
Contact: Evan Lerner
Public Release: 26-Nov-2012
Applied Physics LettersNew device hides, on cue, from infrared cameras Now you see it, now you don't. A new device invented at the Harvard School of Engineering and Applied Sciences can absorb 99.75 percent of infrared light that shines on it. When activated, it appears black to infrared cameras.
Defense Advanced Research Projects Agency, National Science Foundation, Office of Naval Research, Air Force Office of Scientific Research, and more
Contact: Caroline Perry
Public Release: 22-Nov-2012
Following in Marie Curie's footsteps More than a century ago, a brilliant young chemist and physicist named Marie Curie, won a Nobel Prize for her ground-breaking discoveries in radioactivity. Emma Martin Rodriguez, a post-doctoral researcher in Concordia's Department of Chemistry, is carrying on Curie's spirit of trail-blazing scientific inquiry, thanks to a prestigious research fellowship, created in Curie's name. Contact: Clea Desjardins
Public Release: 22-Nov-2012
IEEE Electron Device LettersSpanish scientists design a revolutionary data storage device The new device is protected with ten international patents including Japan, the USA, Corea and the European Union. The most important electronic companies worldwide such as Samsung and Hynix (Corea) and Micron (USA) have shown interest in this innovative data storage device. Contact: Francisco Gámiz Pérez
Public Release: 22-Nov-2012
ScienceTransforming 'noise' into mechanical energy at nanometric level A team of researchers at the Freie Universität Berlin, co-ordinated by José Ignacio Pascual (current leader of the Nanoimagen team at CIC nanoGUNE), have developed a method that enables efficiently using the random movement of a molecule in order to make a macroscopic-scale lever oscillate. The research was published in Science. Contact: Aitziber Lasa
Public Release: 22-Nov-2012
Inspired: Canada funds 68 bold, inventive ways to improve health, save lives in developing countries Some 51 innovators in 18 low and middle income countries and 17 in Canada will share $7 million in Canadian grants to pursue bold, creative ideas for tackling health problems in resource-poor parts of the world. The projects will be implemented worldwide: 38 in Africa, 23 in Asia, five in Latin America/Caribbean, and two in the Middle East
Grand Challenges Canada
Contact: Terry Collins
Public Release: 20-Nov-2012
2012 MRS Fall Meeting & Exhibit, in BostonScotch tape finds new use as grasping 'smart material' Scotch tape, a versatile household staple and a mainstay of holiday gift-wrapping, may have a new scientific application as a shape-changing "smart material." Contact: Emil Venere
Public Release: 20-Nov-2012
Advanced MaterialsTiny probes shine brightly to reveal the location of targeted tissues Nanostructures called BRIGHTs seek out biomarkers on cells and then beam brightly to reveal their locations. In the tiny gap between the gold skin and the gold core of the nanoparticle, there is an electromagnetic hot spot that lights up the reporter molecules trapped there. BRIGHTs, which shine about 1.7 x 10^11 more brightly than isolated Raman reporters, are intended for use in noinvasive bioimaging. Contact: Diana Lutz
Public Release: 20-Nov-2012
Nature MaterialsResearchers improve technology to detect hazardous chemicals Scientists at Imperial College London have developed a system to quickly detect trace amounts of chemicals like pollutants, explosives or illegal drugs.
ERC, Defence Science and Technology Laboratory
Contact: Simon Levey
Public Release: 20-Nov-2012
ScienceResearchers build synthetic membrane channels out of DNA Physicists at the Technische Universitaet Muenchen and the University of Michigan have shown that synthetic membrane channels can be constructed through "DNA nanotechnology." This technique employs DNA molecules as programmable building materials for custom-designed, self-assembling, nanometer-scale structures. The researchers present evidence that their nature-inspired nanostructures may also behave like biological ion channels. Their results could mark a step toward applications of synthetic membrane channels as molecular sensors, antimicrobial agents, and drivers of novel nanodevices.
German Research Foundation, BMBF, ERC, National Institutes of Health
Contact: Patrick Regan
Public Release: 20-Nov-2012
Chemical CommunicationsNanomedicine breakthrough could improve chemotherapy for childhood cancer In a world-first, researchers from the Australian Centre for Nanomedicine at the University of New South Wales in Sydney have developed a nanoparticle that could improve the effectiveness of chemotherapy for neuroblastoma by a factor of five. Contact: Steve Offner
Public Release: 20-Nov-2012
Analytical ChemistryNanotech device mimics dog's nose to detect explosives A research team at UCSB has designed a detector that uses microfluidic nanotechnology to mimic the biological mechanism behind canine scent receptors. The device is both highly sensitive to trace amounts of certain vapor molecules, and able to tell a specific substance apart from similar molecules.
Army Research Office, DARPA
Contact: Melissa Van De Werfhorst
Public Release: 20-Nov-2012
Nature Scientific ReportsKing's College London finds rainbows on nanoscale New research at King's College London may lead to improved solar cells and LED-displays. Researchers from the Biophysics and Nanotechnology Group at King's, led by Professor Anatoly Zayats in the department of Physics have demonstrated in detail how to separate colours and create 'rainbows' using nanoscale structures on a metal surface. Contact: Marianne Slegers
Showing releases 1-25 out of 759.
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