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Key: Meeting
Showing releases 76-100 out of 1554. << < 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 > >>
Public Release: 29-Apr-2013
 Nature Photonics'Super-resolution' microscope possible for nanostructures Researchers have found a way to see synthetic nanostructures and molecules using a new type of super-resolution optical microscopy that does not require fluorescent dyes, representing a practical tool for biomedical and nanotechnology research. 
National Science Foundation, National Institutes of Health, Defense Advanced Research Projects Agency
Contact: Emil Venere
Public Release: 29-Apr-2013
Scientific ReportsScientists reach the ultimate goal -- controlling chirality in carbon nanotubes 20 years after the discovery of SWNTs, scientists from Aalto University in Finland, A.M. Prokhorov General Physics Institute RAS in Russia and the Center for Electron Nanoscopy of Technical University of Denmark have managed to control chirality in carbon nanotubes during their chemical vapor deposition synthesis.
Aalto University, A.P. Mueller and Chastine McKinney Mueller Foundation
Contact: Esko I. Kauppinen
Public Release: 29-Apr-2013
Proceedings of the National Academy of SciencesMicrochip proves tightness provokes precocious sperm release Sperm cell release can be triggered by tightening the grip around the delivery organ, according to a team of nano and microsystems engineers and plant biologists at the University of Montreal and Concordia University. Contact: William Raillant-Clark
Public Release: 25-Apr-2013
NatureBold move forward in molecular analyses New metrics for analyzing data from small angle scattering experiments should dramatically improve the ability of scientists to study the structures of macromolecules such as proteins and nanoparticles in solution.
US Department of Energy Office of Science, National Institutes of Health
Contact: Lynn Yarris
Public Release: 25-Apr-2013
SciencePiezoelectric 'taxel' arrays convert motion to electronic signals for tactile imaging Using bundles of vertical zinc oxide nanowires, researchers have fabricated arrays of piezotronic transistors capable of converting mechanical motion directly into electronic controlling signals. The arrays could help give robots a more adaptive sense of touch, provide better security in handwritten signatures and offer new ways for humans to interact with electronic devices.
Defense Advanced Research Projects Agency, National Science Foundation, Department of Energy, US Air Force
Contact: John Toon
Public Release: 24-Apr-2013
ACS NanoUNL team's discovery yields supertough, strong nanofibers University of Nebraska-Lincoln materials engineers have developed a structural nanofiber that is both strong and tough, a discovery that could transform everything from airplanes and bridges to body armor and bicycles.
National Science Foundation, Air Force Office of Scientific Research, US Army Research Office
Contact: Yuris Dzenis
Public Release: 24-Apr-2013
Energy & Environmental ScienceRecipe for low-cost, biomass-derived catalyst for hydrogen production Researchers at Brookhaven National Laboratory describe details of a low-cost, stable, effective catalyst that could replace costly platinum in the production of hydrogen. The catalyst, made from renewable soybeans and abundant molybdenum metal, produces hydrogen in an environmentally friendly, cost-effective manner, potentially increasing the use of this clean energy source.
Department of Energy Office of Science
Contact: Karen McNulty Walsh
Public Release: 24-Apr-2013
Nature CommunicationsBattery and memory device in 1 Resistive memory cells are regarded as a promising solution for future generations of computer memories. Unlike the building blocks of conventional hard disk drives and memories, these novel memory cells are not purely passive components but must be regarded as tiny batteries. This has been demonstrated by researchers of Jülich Aachen Research Alliance, whose findings have now been published in the prestigious journal Nature Communications. Contact: Christian Schipke
Public Release: 24-Apr-2013
Science Translational MedicineT2 Bio publishes data supporting diagnostic test T2Candida® in Science Translational Medicine Deadly blood infections, or sepsis, are one of the top 10 causes of death in the United States. Each hour of delayed treatment increases the mortality of patients by 8%. This new diagnostic technology, T2Candida, achieved a 25X faster time to result, reducing the detection time of the fungus that can cause sepsis, Candida, from at best 48 hours to 3 hours. This research represents the first time Candida has been identified directly from whole blood in patient samples at clinically relevant levels.
T2 Biosystems
Contact: Karen Sharma
Public Release: 23-Apr-2013
What's old is new again While automotive and medical device manufacturing may seem unrelated, the latter has benefited from the former. For example, manufacturing techniques developed for increasing the wear resistance of metallic camshafts are routinely used in hip implants. In both applications, performance and reliability are enhanced by increasing the strength of a metal part's surface. Now, an engineer in the Bourns College of Engineering at the University of California, Riverside seeks to extend this concept to medical devices.
National Science Foundation
Contact: Sean Nealon
Public Release: 23-Apr-2013
Nano LettersNanowires grown on graphene have surprising structure When a team of University of Illinois engineers set out to grow nanowires of a compound semiconductor on top of a sheet of graphene, they did not expect to discover a new paradigm of epitaxy. The self-assembled wires have a core of one composition and an outer layer of another, a desired trait for many advanced electronics applications.
US Department of Energy, National Science Foundation
Contact: Liz Ahlberg
Public Release: 23-Apr-2013
Nano LettersThe crystal's corners: New nanowire structure has potential to increase semiconductor applications University of Cincinnati research describes the discovery of a new structure that is a fundamental game changer in the physics of semiconductor nanowires. Contact: Tom Robinette
Public Release: 23-Apr-2013
PLOS ONEInsights into deadly coral bleaching could help preserve reefs Coral reefs are stressed because of climate change. Researchers from Northwestern University and The Field Museum of Natural History have discovered corals themselves play a role in their susceptibility to deadly coral bleaching due to the light-scattering properties of their skeletons. No one else has shown this before. Using optical technology designed for early cancer detection, the researchers discovered that reef-building corals scatter light in different ways to the symbiotic algae that feed the corals.
National Science Foundation
Contact: Megan Fellman
Public Release: 22-Apr-2013
OHSU teams with Intel to decode the root causes of cancer and other complex diseases Oregon Health and Science University and Intel Corp. are teaming up to develop next-generation computing technologies that advance the field of personalized medicine by dramatically increasing the speed, precision and cost-effectiveness of analyzing a patient's individual genetic profile. Contact: Elisa Williams
Public Release: 22-Apr-2013
International Journal of CancerScreening detects ovarian cancer using neighboring cells Pioneering biophotonics technology developed at Northwestern University is the first screening method to detect the early presence of ovarian cancer in humans by examining cells easily brushed from the neighboring cervix or uterus, not the ovaries themselves. The results have the potential to translate into a minimally invasive early detection method using cells collected by a swab, exactly like a pap smear.
National Institutes of Health, National Science Foundation
Contact: Megan Fellman
Public Release: 22-Apr-2013
SciencePhysicists find right (and left) solution for on-chip optics Physicists have found a new way to precisely manipulate light at the subwavelength scale without damaging a signal that could carry data. This opens the door to a new generation of on-chip optical interconnects that can efficiently funnel information from optical to electronic devices.
Air Force Office of Scientific Research, National Science Foundation
Contact: Caroline Perry
Public Release: 22-Apr-2013
Applied Physics LettersU. of Illinois researchers measure near-field behavior of semiconductor plasmonic microparticles For the first time, researchers have measured nanometer-scale infrared absorption in semiconductor plasmonic microparticles using a technique that combines atomic force microscopy with infrared spectroscopy.
National Science Foundation
Contact: William P. King
Public Release: 22-Apr-2013
Nature PhotonicsGermanium made laser compatible Good news for the computer industry: a team of researchers has managed to make germanium suitable for lasers. This could enable microprocessor components to communicate using light in future, which will make the computers of the future faster and more efficient.
Swiss National Science Foundation
Contact: Martin Sueess
Public Release: 19-Apr-2013
Journal of the American Chemical SocietyFreedom of assembly Scientists at the US Department of Energy's Argonne National Laboratory have, for the first time, captured movies of nanoparticle self-assembly, giving researchers a new glimpse of an unusual material property.
National Science Foundation, US Department of Energy
Contact: Jared Sagoff
Public Release: 19-Apr-2013
ACS NanoRevolutionary new device joins world of smart electronics Smart electronics are taking the world by storm. From techno-textiles to transparent electronic displays, the world of intelligent technology is growing fast and a revolutionary new device has just been added to its ranks. Researchers at the University of Exeter have developed a new photoelectric device that is both flexible and transparent.
Engineering and Physical Sciences Research Council
Contact: Jo Bowler
Public Release: 19-Apr-2013
Nano LettersResearch harnesses solar-powered proteins to filter harmful antibiotics from water UC research just published in the journal, Nano Letters, details how solar-powered proteins can be used to filter antibiotics and other harmful compounds from rivers and lakes at a significantly higher rate than present treatment standards. Contact: M.B. Reilly
Public Release: 18-Apr-2013
Biosensors and BioelectronicsFood safety and bioterrorism defense may benefit from improved detection test developed at MU From bird flu to mad cow disease, numerous food scares have made global headlines in recent years. A technique developed by University of Missouri professor of engineering Shubhra Gangopadhyay's group may make food contamination testing more rapid and accurate. The detection test also could accelerate warnings after bioterrorism attacks. Contact: Tim Wall
Public Release: 18-Apr-2013
Indiana University surgeon's nanoparticle research takes inspiration from Greek mythology An Indiana University School of Medicine breast cancer surgeon is pursuing research that will utilize glass, gold, nanotechnology and Greek mythology hoping to vanquish breast cancer that has metastasized to the brain.
US Department of Defense
Contact: Mary Hardin
Public Release: 18-Apr-2013
Nature CommunicationsDiscovery paves the way for ultra fast high resolution imaging in real time Ultrafast high-resolution imaging in real time could be a reality with a new research discovery led by the University of Melbourne, Australia. Contact: Rebecca Scott
Public Release: 17-Apr-2013
ACS Applied Materials & InterfacesSuper-nanotubes: 'Remarkable' spray-on coating combines carbon nanotubes with ceramic Researchers from NIST and Kansas State University have demonstrated a spray-on mixture of carbon nanotubes and ceramic that has unprecedented ability to resist damage while absorbing laser light. Coatings that absorb as much of the energy of high-powered lasers as possible without breaking down are essential for measuring the output of such lasers. Contact: Laura Ost
Showing releases 76-100 out of 1554. << < 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 > >>
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