|
|
|
|||||||||||||||||||||||||||||||||||||||||||
|
|
||||||||||||||||||||||||||||||||||||||||||
|
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
|
|
|
Key: Meeting
Showing releases 101-125 out of 759. << < 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 > >>
Public Release: 17-Oct-2012
 Angewandte Chemie International EditionNew cobalt-graphene catalyst could challenge platinum for use in fuel cells There's a new contender in the race to find an inexpensive alternative to platinum catalysts for use in hydrogen fuel cells. Brown University chemist Shouheng Sun and his students have developed a new material -- a graphene sheet covered by cobalt and cobalt-oxide nanoparticles -- that can catalyze the oxygen reduction reaction nearly as well as platinum does and is substantially more durable. 
US Department of Energy, Office of Energy Efficiency, Renewable Energy, Fuel
Contact: Kevin Stacey
Public Release: 17-Oct-2012
NatureBus service for qubits Superconducting circuit technology meets semiconductor qubit technology to afford a means of moving quantum information from one place to another in future quantum computers.
Sloan, Packard, Army, Defense Advanced Research Projects Agency QuEST, National Science Foundation, Army Research Office Multidisciplinary University Research Initiative
Contact: Phillip F. Schewe
Public Release: 16-Oct-2012
Envisioning novel approaches for eye disease: 'The new medicine' at UC Santa Barbara By growing new retinal cells to replace those that have malfunctioned, scientists hope to one day create and fuse entire layers of fresh cells -- a synthetic patch akin to a contact lens -- as a treatment for age-related macular degeneration, the top cause of visual impairment among people over 60.
Bill Bowes
Contact: Shelly Leachman
Public Release: 16-Oct-2012
Effort to mass-produce flexible nanoscale electronics Case Western Reserve University researchers have won a $1.2 million grant to develop technology for mass-producing flexible electronic devices at a whole new level of small. As they're devising new tools and techniques to make nanowires and devices, they're creating ways to build them in flexible materials and package the electronics in waterproofing layers of durable plastics. The technology may be used to make implants that cause less damage to foldable electronics as thin as a sheet of plastic wrap.
National Science Foundation
Contact: Kevin Mayhood
Public Release: 15-Oct-2012
Penn State receives $4.2 million for nanotechnology career development Penn State will receive $4.2 million over the next three years from the National Science Foundation to continue the work of the National Nanotechnology Applications and Career Knowledge Network, founded at the university with a four-year grant from the NSF in 2008.
National Science Foundation
Contact: Michael Bezilla
Public Release: 15-Oct-2012
Advanced Functional MaterialsPenn researchers find new way to mimic the color and texture of butterfly wings The colors of a butterfly's wings are unusually bright and beautiful and are the result of an unusual trait; the way they reflect light is fundamentally different from how color works most of the time.
Office of Naval Research, National Science Foundation.
Contact: Evan Lerner
Public Release: 15-Oct-2012
Nano LettersPenn researchers find new way to prevent cracking in nanoparticle films Making uniform coatings is a common engineering challenge, and, when working at the nanoscale, even the tiniest cracks or defects can be a big problem. New research from University of Pennsylvania engineers has shown a new way of avoiding such cracks when depositing thin films of nanoparticles.
National Science Foundation, Penn Materials Research Science and Engineering Center
Contact: Evan Lerner
Public Release: 15-Oct-2012
ScienceScience: Quantum oscillator responds to pressure In the far future, superconducting quantum bits might serve as components of high-performance computers. Today already do they help better understand the structure of solids, as is reported by researchers of Karlsruhe Institute of Technology in the Science magazine. By means of Josephson junctions, they measured the oscillations of individual atoms "tunneling" between two positions. This means that the atoms oscillated quantum mechanically. Deformation of the specimen even changed the frequency (DOI: 10.1126/science.1226487). Contact: Kosta Schinarakis
Public Release: 15-Oct-2012
Nature MaterialsAnother advance on the road to spintronics Using a new technique called HARPES, for Hard x-ray Angle-Resolved PhotoEmission Spectroscopy, Berkeley Lab researchers have unlocked the ferromagnetic secrets of dilute magnetic semiconductors, materials of great interest for spintronic technology.
US Department of Energy Office of Science
Contact: Lynn Yarris
Public Release: 15-Oct-2012
Materials Research LettersNew techniques stretch carbon nanotubes, make stronger composites Researchers from North Carolina State University have developed new techniques for stretching carbon nanotubes and using them to create carbon composites that can be used as stronger, lighter materials in everything from airplanes to bicycles.
Air Force Office of Scientific Research
Contact: Matt Shipman
Public Release: 14-Oct-2012
Nature PhysicsMaking a layer cake with atomic precision Graphene and associated one-atom-thick crystals offer the possibility of a vast range of new materials and devices by stacking individual atomic layers on top of each other, new research from the University of Manchester shows. Contact: Daniel Cochlin
Public Release: 12-Oct-2012
Physical Review Letters'Invisibility' could be a key to better electronics An MIT team applies technology developed for visual 'cloaking' to enable more efficient transfer of electrons.
US Department of Energy
Contact: Caroline McCall
Public Release: 12-Oct-2012
Advanced MaterialsScientists discover that shape matters in DNA nanoparticle therapy Researchers from Johns Hopkins and Northwestern universities have discovered how to control the shape of nanoparticles that move DNA through the body and have shown that the shapes of these carriers may make a big difference in how well they work in treating cancer and other diseases. This study is also noteworthy because this gene therapy technique does not use a virus to carry DNA into cells.
National Institutes of Health
Contact: Megan Fellman
Public Release: 11-Oct-2012
Researchers seek way to make solar cells ultra-thin, flexible Researchers at The University of Texas at Dallas are developing nanotechnology that could lead to a new platform for solar cells, one that could drive the development of lighter, flexible and more versatile solar-powered technology than is currently available. The National Science Foundation recently awarded a $390,000 grant to the researchers to further explore their research on the feasibility of ultrathin-film photovoltaic devices, which convert light from the sun into electric power.
National Science Foundation
Contact: Amanda Siegfried
Public Release: 11-Oct-2012
ACS NanoResearchers create 'nanoflowers' for energy storage, solar cells Researchers from North Carolina State University have created flower-like structures out of germanium sulfide (GeS) – a semiconductor material – that have extremely thin petals with an enormous surface area. The GeS flower holds promise for next-generation energy storage devices and solar cells.
US Army Research Office
Contact: Matt Shipman
Public Release: 11-Oct-2012
Queen's develops new environmentally friendly MOF production method Chemists at Queen's University Belfast have devised a novel, environmentally friendly technique, which allows the rapid production of Metal-Organic Frameworks porous materials. These revolutionary nanomaterials have the potential to transform hazardous gas storage, natural gas vehicles and drug delivery and have the highest surface-area of any known substance. Contact: Communications Office
Public Release: 10-Oct-2012
ACS NanoLight might prompt graphene devices on demand A breakthrough in plasmonics could allow the creation of on-demand electronic devices on graphene by hitting the material with light of a particular wavelength or at a certain angle.
Robert A. Welch Foundation, Office of Naval Research, Department of Defense National Security
Contact: David Ruth
Public Release: 10-Oct-2012
ACS NanoImproving nanometer-scale manufacturing with infrared spectroscopy While there have been significant breakthroughs in nano-manufacturing, there has been much less progress on measurement technologies that can provide information about nanostructures made from multiple integrated materials. Researchers at the University of Illinois Urbana-Champaign and Anasys Instruments Inc. now report new diagnostic tools that can support cutting-edge nano-manufacturing. Using atomic force microscope based infrared spectroscopy to characterize polymer nanostructures and systems of integrated polymer nanostructures, researchers were able to chemically analyze polymer lines as small as 100 nm
DARPA, Air Force Office of Scientific Research, US Department of Energy
Contact: William P. King
Public Release: 10-Oct-2012
Nature ChemistryThe best of both catalytic worlds Berkeley Lab researchers have combined the best properties of heterogeneous and homogeneous catalysts by encapsulating metallic nanoclusters within the branched molecular arms of dendrimers. The results are heterogenized homogeneous nanocatalysts that are sustainable and feature high reactivity and selectivity.
US Department of Energy/Office of Science
Contact: Lynn Yarris
Public Release: 10-Oct-2012
ACS NanoPhotonic gels are colorful sensors Tunable photonic gels developed at Rice University and the Massachusetts Institute of Technology show promise for sensors, security devices, computer components and display systems.
US Army Research Office, US Air Force, Korea Research Foundation
Contact: David Ruth
Public Release: 10-Oct-2012
NatureThe graphene-paved roadmap Wonder material graphene could not only dominate the electronic market in the near future, it could also lead to a huge range of new markets and novel applications, a landmark University of Manchester paper claims. Contact: Daniel Cochlin
Public Release: 9-Oct-2012
Angewandte ChemieDrawing a line, with carbon nanotubes MIT researchers have designed a new type of pencil lead in which graphite is replaced with a compressed powder of carbon nanotubes. The lead, which can be used with a regular mechanical pencil, can inscribe sensors on any paper surface.
MIT/Institute for Soldier Nanotechnologies, National Institutes of Health
Contact: Caroline McCall
Public Release: 9-Oct-2012
ACS NanoGlowing DNA invention points towards high speed disease detection Many diseases, including cancers, leave genetic clues in the body just as criminals leave DNA at a crime scene. But tools to detect the DNA-like sickness clues known as miRNAs, tend to be slow and expensive. Now Chemistry researcher Tom Vosch and plant molecular biologist Seong Wook Yang, University of Copenhagen, have invented a DNA sensor, coupling genetic material to a luminous molecule which goes dark only in the presence of a specific target. Contact: Jes Andersen
Public Release: 8-Oct-2012
Nature NanotechnologyGraphene membranes may lead to enhanced natural gas production, less CO2 pollution says CU study Engineering faculty and students at the University of Colorado Boulder have produced the first experimental results showing that atomically thin graphene membranes with tiny pores can effectively and efficiently separate gas molecules through size-selective sieving.
National Science Foundation
Contact: Scott Bunch
Public Release: 8-Oct-2012
Angewandte ChemieCatalytic converters like it hot Catalytic converters work poorly if they have not yet warmed up. Tiny metal particles in a catalytic converter require a minimum temperature to function efficiently. At the Vienna University of Technology, thanks to a new measuring method, it has now become possible to examine many different types of these particles at the same time. Reliable information regarding what it is exactly that the efficiency of catalytic converters depends on has thus been obtained for the first time. Contact: Florian Aigner
Showing releases 101-125 out of 759. << < 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 > >>
|
|
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
|
||||
|
|
 |
|
Journal