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Key: Meeting
Showing releases 151-175 out of 1561. << < 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 > >>
Public Release: 30-May-2013
 ScienceScientists capture first images of molecules before and after reaction Using atomic force microscopy, chemists for the first time can capture images of molecules before and after they react, which will allow them to better tune reactions to get the products they want. UC Berkeley chemist Felix Fischer and physicist Michael Crommie joined forces to develop the technique, which could help scientists study and improve catalytic reactions like those used widely in industry to make chemicals or crack oil. 
Office of Naval Research, US Department of Energy, National Science Foundation
Contact: Robert Sanders
Public Release: 29-May-2013
Nature CommunicationsStanford scientists develop high-efficiency zinc-air battery Stanford University scientists have developed an advanced zinc-air battery with higher catalytic activity and durability than similar batteries made with costly platinum and iridium catalysts. The results could lead to the development of a low-cost alternative to conventional lithium-ion batteries widely used today, according to the researchers.
Intel, Stanford Global Climate and Energy Project, Stanford Precourt Institute for Energy
Contact: Mark Shwartz
Public Release: 29-May-2013
Optical Materials ExpressCharred micro-bunny sculpture shows promise of new material for 3-D shaping Researchers in Japan used state-of-the-art micro-sculpting techniques on a new type of resin that can be molded into complex, highly conductive 3-D structures (in this case the famous "Stanford bunny") with features just a few micrometers across. The team says one of the most promising applications is 3-D microelectrodes that could interface with the brain. Contact: Angela Stark
Public Release: 29-May-2013
Flexible opals A synthetic material which mimics the brightest and most vivid colours in nature, and changes colour when twisted or stretched, has been developed by researchers at the University of Cambridge, and could have important applications in the security, textile and sensing industries. Contact: Sarah Collins
Public Release: 28-May-2013
Scientific ReportsDiamonds, nanotubes find common ground in graphene What may be the ultimate heat sink is only possible because of yet another astounding capability of graphene. The one-atom-thick form of carbon can act as a go-between that allows vertically aligned carbon nanotubes to grow on nearly anything, including diamonds.
Honda Research Institute
Contact: David Ruth
Public Release: 28-May-2013
Advanced MaterialsShape-shifting nanoparticles flip from sphere to net in response to tumor signal Tiny spherical particles float easily through the bloodstream after injection, then assemble into a durable scaffold within diseased tissue. An enzyme produced by a specific type of tumor can trigger the transformation of the spheres into netlike structures that accumulate at the site of a cancer.
National Institutes of Health, Army Research Office, Air Force Office of Scientific Research, Camille and Henry Dreyfus Foundation, Sloan Foundation
Contact: Susan Brown
Public Release: 28-May-2013
University of Huddersfield awarded £93k award from the EPSRC University of Huddersfield scientist Dr. Feng Gao has been awarded £93,668 for a research project to achieve new levels of efficiency and cost-saving for companies making advanced products using ultra-precise surfaces. This research will help to reduce the amount of material that is wasted due to imperfections.
Engineering and Physical Sciences Research Council
Contact: Megan Beech
Public Release: 24-May-2013
Physical Review BHow do cold ions slide? One of the challenges faced by those who study friction is finding a connection between the phenomena observed within the macroworld and those in the nanoworld. The stick-slip, a phenomenon observed at every scale when two surfaces slide on one another, could be the starting point to identify such connection. The scientists at SISSA have studied such phenomenon through a system of "trapped cold ions." Contact: Federica Sgorbissa
Public Release: 23-May-2013
ScienceGold nanocrystal vibration captured on billion-frames-per-second film A billon-frames-per-second film has captured the vibrations of gold nanocrystals in stunning detail for the first time. Contact: Clare Ryan
Public Release: 22-May-2013
Advanced Functional MaterialsInnovation could bring flexible solar cells, transistors, displays Researchers have created a new type of transparent electrode that might find uses in solar cells, flexible displays for computers and consumer electronics and future "optoelectronic" circuits for sensors and information processing.
US Department of Energy
Contact: Emil Venere
Public Release: 22-May-2013
Journal of Controlled ReleaseResearch offers promising new approach to treatment of lung cancer Researchers have developed a new drug delivery system that allows inhalation of chemotherapeutic drugs to help treat lung cancer, and in laboratory and animal tests it appears to reduce the systemic damage done to other organs while significantly improving the treatment of lung tumors -- the tumors virtually disappeared.
NIH/National Cancer Institute, National Science Foundation, Department of Defense
Contact: Oleh Taratula
Public Release: 22-May-2013
Scientific ReportsNew technique may open up an era of atomic-scale semiconductor devices Researchers at North Carolina State University have developed a new technique for creating high-quality semiconductor thin films at the atomic scale -- meaning the films are only one atom thick. The technique can be used to create these thin films on a large scale, sufficient to coat wafers that are two inches wide, or larger.
US Army Research Office
Contact: Matt Shipman
Public Release: 21-May-2013
Nature NanotechnologyWhirlpools on the nanoscale could multiply magnetic memory Research at Lawrence Berkeley National Laboratory's Advanced Light Source promises four-bit magnetic cells instead of the two-bit magnetic domains of standard magnetic memories. Magnetic vortices are whirlpools of magnetic field, in which electron spins point either clockwise or counterclockwise. In the crowded center of the whirlpool the spins point either down or up. These four orientations could represent separate bits of information in a new kind of memory, if controlled independently and simultaneously.
US Department of Energy Office of Science, European Regional Development Fund, Czech Republic Grant Agency
Contact: Paul Preuss
Public Release: 21-May-2013
Research at the cutting edge of knowledge The Brazilian funding agency for scientific and technological research São Paulo Research Foundation, FAPESP, based in the state of São Paulo, announced an investment estimated in US$680 million to support 17 Research, Innovation and Dissemination Centers for a period of up to eleven years. Each selected RIDC must develop opportunities to have its research results contribute to commercially and/or socially relevant high-impact applications, as well as contributing to education and dissemination of knowledge.
FAPESP -- Sao Paulo Research Foundation
Contact: Fernando Cunha
Public Release: 21-May-2013
Founding donor doubles his gift to Harvard's Wyss Institute for Biologically Inspired Engineering The Wyss Institute for Biologically Inspired Engineering at Harvard University announced today that Hansjorrg Wyss, the entrepreneur and philanthropist who enabled the Institute's creation in 2009 with a $125 million gift, has donated a second $125 million gift to the University to further advance the Institute's pioneering work. Contact: Kristen Kusek
Public Release: 21-May-2013
Nature CommunicationsStudy led by GW professor provides better understanding of water's freezing behavior at nanoscale The results of a new study led by George Washington University professor Tianshu Li provide direct computational evidence that nucleation of ice in small droplets is strongly size-dependent, an important conclusion in understanding water's behavior at the nanoscale. Contact: Joanne Welsh
Public Release: 21-May-2013
2013 City of Hope National Medical Center Immunology Division Seminar SeriesMU researchers develop radioactive nanoparticles that target cancer cells Researchers at the University of Missouri have found a way to create radioactive nanoparticles that target lymphoma tumor cells wherever they may be in the body. Contact: Nathan Hurst
Public Release: 21-May-2013
Nano LettersSingle-cell transfection tool enables added control for biological studies Northwestern researchers have developed a novel tool for single-cell transfection, in which they deliver molecules into targeted cells through temporary nanopores in the cell membrane created by a localized electric field.
National Science Foundation, National Institutes of Health
Contact: Megan Fellman
Public Release: 21-May-2013
Nature CommunicationsUofL scientists uncover how grapefruits provide a secret weapon in medical drug delivery University of Louisville researchers have uncovered how to create nanoparticles using natural lipids derived from grapefruit, and have discovered how to use them as drug delivery vehicles.
National Institutes of Health, Louisville Veterans Administration Medical Center, Susan G. Komen Breast Cancer Foundation
Contact: Julie Heflin
Public Release: 21-May-2013
Proceedings of the National Academy of SciencesRice unveils method for tailoring optical processors Rice University scientists have unveiled a robust new method for arranging metal nanoparticles in geometric patterns that can act as optical processors that transform incoming light signals into output of a different color. The breakthrough by a team of theoretical and applied physicists and engineers at Rice's Laboratory for Nanophotonics is described this week in the Proceedings of the National Academy of Sciences.
US Department of Defense, Air Force Office of Scientific Research, Office of Naval Research, Welch Foundation
Contact: Jade Boyd
Public Release: 20-May-2013
Lab on a ChipUC Davis engineers create on-wetting fabric drains sweat Waterproof fabrics that whisk away sweat could be the latest application of microfluidic technology developed by bioengineers at UC Davis.
National Science Foundation
Contact: Andy Fell
Public Release: 20-May-2013
Applied Physics LettersIron-platinum alloys could be new-generation hard drives UC Davis researchers have found a convenient way to make layered iron-platinum alloys and tailor their properties, a promising material for a potential new generation of data storage media.
National Science Foundation
Contact: Andy Fell
Public Release: 20-May-2013
Nano LettersResearchers perform fastest measurements ever made of ion channel proteins A team of researchers at Columbia Engineering has used miniaturized electronics to measure the activity of individual ion-channel proteins with temporal resolution as fine as one microsecond, producing the fastest recordings of single ion channels ever performed. They designed a custom integrated circuit to perform these measurements, in which an artificial cell membrane and ion channel are attached directly to the surface of the amplifier chip.
National Institutes of Health, National Science Foundation
Contact: Holly Evarts
Public Release: 20-May-2013
Journal of Physical Chemistry LettersOpening doors to foldable electronics with inkjet-printed graphene Imagine a bendable tablet computer or an electronic newspaper that could fold to fit in a pocket. The technology for these devices may not be so far off, thanks to new research from Northwestern University.
Office of Naval Research
Contact: Megan Fellman
Public Release: 20-May-2013
Nano LettersPenn engineers' nanoantennas improve infrared sensing A team of University of Pennsylvania engineers has used a pattern of nanoantennas to develop a new way of turning infrared light into mechanical action, opening the door to more sensitive infrared cameras and more compact chemical-analysis techniques.
National Science Foundation
Contact: Evan Lerner
Showing releases 151-175 out of 1561. << < 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 > >>
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