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Key: Meeting
Showing releases 101-125 out of 1561. << < 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 > >>
Public Release: 19-Jun-2013
 Journal of Microelectromechanical SystemsNew microfluidic chip can help identify unwanted particles in water and food Virginia Tech researchers developed a new microfabrication technique to develop three-dimensional microfluidic devices in polymers. The devices can be used in the analysis of cells and could prove useful in counterterrorism measures and in water and food safety concerns. 
National Science Foundation
Contact: Lynn Nystrom
Public Release: 19-Jun-2013
Science Translational MedicineA shot in the arm for old antibiotics Slipping bacteria some silver could give old antibiotics new life, scientists at the Wyss Institute for Biologically Inspired Engineering at Harvard University reported June 19 in Science Translational Medicine. This could pave the way for new therapies for drug-resistant and recurrent infections.
National Institutes of Health, Howard Hughes Medical Institute, Wyss Institute for Biologically Inspired Engineering
Contact: Dan Ferber
Public Release: 19-Jun-2013
ACS NanoSound waves precisely position nanowires The smaller components become, the more difficult it is to create patterns in an economical and reproducible way, according to an interdisciplinary team of Penn State researchers who, using sound waves, can place nanowires in repeatable patterns for potential use in a variety of sensors, optoelectronics and nanoscale circuits.
National Institutes of Health, National Science Foundation
Contact: A'ndrea Elyse Messer
Public Release: 19-Jun-2013
PLOS ONECarbon nanotube harpoon catches individual brain-cell signals Neuroscientists may soon be modern-day harpooners, snaring individual brain-cell signals instead of whales with tiny spears made of carbon nanotubes.
Duke Institute for Brain Sciences, National Institutes of Health
Contact: Ashley Yeager
Public Release: 18-Jun-2013
Advanced MaterialsPrinting tiny batteries Three-dimensional printing can now be used to print lithium-ion microbatteries the size of a grain of sand. The printed microbatteries could supply electricity to tiny devices in fields from medicine to communications, including many that have lingered on lab benches for lack of a battery small enough to fit the device, yet provide enough stored energy to power them.
National Science Foundation, US Department of Energy
Contact: Dan Ferber
Public Release: 18-Jun-2013
US and Canadian researchers drive towards cheaper fuel cells for electric cars A million electric cars could be on roads across North America before the end of the decade with the help of research by the United States Department of Energy, Los Alamos National Laboratory and the University of Waterloo.
US Department of Energy
Contact: Nick Manning
Public Release: 17-Jun-2013
Proceedings of the National Academy of SciencesNew way to improve antibiotic production New research findings could reduce production times and therefore costs for antibiotic producers.
Biotechnology and Biological Sciences Research Council
Contact: Zoe Dunford
Public Release: 17-Jun-2013
Nature MaterialsEfficient and inexpensive: Researchers develop catalyst material for fuel cells Efficient, robust and economic catalyst materials hold the key to achieving a breakthrough in fuel cell technology. Scientists from Jülich and Berlin have developed a material for converting hydrogen and oxygen to water using a tenth of the typical amount of platinum that was previously required. With the aid of state-of-the-art electron microscopy, the researchers discovered that the function of the nanometre-scale catalyst particles is decisively determined by their geometric shape and atomic structure. Contact: Angela Wenzik
Public Release: 17-Jun-2013
Journal of the American Chemical SocietyAn innovative material for the green Earth Researchers from Ulsan National Institute of Science and Technology, S. Korea, developed a novel, simple method to synthesize hierarchically nanoporous frameworks of nanocrystalline metal oxides such as magnesia and ceria by the thermal conversion of well-designed metal-organic frameworks.
National Research Foundation of Korea, South Korea
Contact: Eunhee Song
Public Release: 17-Jun-2013
International Journal of Robotics ResearchA robot that runs like a cat Thanks to its legs, whose design faithfully reproduces feline morphology, EPFL's four-legged "cheetah-cub robot" has the same advantages as its model: it is small, light and fast. Still in its experimental stage, the robot will serve as a platform for research in locomotion and biomechanics.
Ecole polytechnique fédérale de Lausanne
Contact: Sarah Perrin
Public Release: 16-Jun-2013
Nature ChemistryIU chemists produce star-shaped macromolecule that grabs large anions Chemists at Indiana University Bloomington have created a symmetrical, five-sided macrocycle that is easy to synthesize and has characteristics that may help expand the molecular tool box available to researchers in biology, chemistry and materials sciences. The molecule, which the researchers call cyanostar, was developed in the lab of Amar Flood, associate professor in the Department of Chemistry.
National Science Foundation
Contact: Steve Hinnefeld
Public Release: 14-Jun-2013
IEEE Transactions on HapticsNew array measures vibrations across skin may help engineers design tactile displays A new array measures vibrations across skin may help engineers design tactile displays. Contact: Andrew Carleen
Public Release: 13-Jun-2013
ACS NanoUnzipped nanotubes unlock potential for batteries Graphene nanoribbons and tin oxide make an effective anode for lithium ion batteries, as discovered in early tests at Rice University.
Air Force Office of Naval Research, Office of Naval Research, Sandia National Lab
Contact: Mike Williams
Public Release: 13-Jun-2013
SPIE Defense, Security, and Sensing 2013Autonomous energy-scavenging micro devices will test water quality, monitor bridges, more Researchers at the University of Waterloo in Ontario are using photonics in their quest to "bring the lab to the sample," developing sophisticated micro instruments that scavenge power from sunlight, body heat, or other sources, for uses such as monitoring water quality or assessing bridge safety. Contact: Amy Nelson
Public Release: 13-Jun-2013
Journal of Chromotography BMonell-led research identifies scent of melanoma Monell researchers identified odorants from human skin cells that can be used to identify melanoma, the deadliest form of skin cancer. In addition, a nanotechnology-based sensor could utilize the odor profiles to reliably differentiate melanoma cells from normal skin cells. Non-invasive odor analysis may be a valuable technique in the detection and early diagnosis of human melanoma.
NIH/National Institute on Deafness and Other Communication Disorders
Contact: Leslie Stein
Public Release: 13-Jun-2013
New 'electronic nose' nano-sensor being developed for food safety, health The "electronic nose" sensor developed by a University of California, Riverside engineering professor, and being commercialized by Innovation Economy Crowd, will be further refined to detect deadly pathogens including toxic pesticides in the global food supply chain, according to a recently signed product development and distribution agreement. Contact: Sean Nealon
Public Release: 13-Jun-2013
Journal of the Americal Chemical SocietyNanoparticle opens the door to clean-energy alternatives Cheaper clean-energy technologies could be made possible thanks to a new discovery. An important chemical reaction that generates hydrogen from water is effectively triggered -- or catalyzed -- by a nanoparticle composed of nickel and phosphorus, two inexpensive elements that are abundant on Earth. The research team is led by Raymond Schaak, a professor of chemistry at Penn State University.
National Science Foundation
Contact: Barbara K. Kennedy
Public Release: 13-Jun-2013
ACS NanoLight-carved 'nano-volcanoes' hold promise for drug delivery Researchers from North Carolina State University have developed a method for creating "nano-volcanoes" by shining various colors of light through a nanoscale "crystal ball" made of a synthetic polymer. These nano-volcanoes can store precise amounts of other materials and hold promise for new drug-delivery technologies.
NASA, National Science Foundation
Contact: Matt Shipman
Public Release: 12-Jun-2013
Journal of the American Chemical SocietyDiscovery of new material state counterintuitive to laws of physics Dense materials made porous, doubling the number of nanotraps for use as water filters, chemical sensors, sequestration, hydrogen fuel cell storage, drug delivery, and catalysis.
US Department of Energy
Contact: Tona Kunz
Public Release: 12-Jun-2013
Nanoelectronics Center at UT Austin receives $7.8 million award The Nanoelectronics Center at UT Austin received a $7.8 million award from the Semiconductor Research Corporations and the National Institute of Standards and Technology.
Semiconductor Research Corporation, National Institute of Standards and Technology
Contact: Sandra Zaragoza
Public Release: 12-Jun-2013
AIP AdvancesNew quantum dot technique combines best of optical and electron microscopy Researchers working at NIST have developed a new microscopy technique that uses a process similar to how an old tube television produces a picture to image nanoscale features. Combining the best features of optical and scanning electron microscopy, the fast, versatile, and high-resolution technique allows scientists to view surface and subsurface features potentially as small as 10 nanometers in size. Contact: Mark Esser
Public Release: 12-Jun-2013
Nature CommunicationsUniversity of Toronto breakthrough allows fast, reliable pathogen identification University of Toronto researchers may have developed a way to quickly and reliably diagnose life-threatening bacterial infections and pinpoint the right antibiotics to clear the infections.
Defense Advanced Research Projects Agency
Contact: Terry Lavender
Public Release: 12-Jun-2013
ACS NanoFilmmaking magic with polymers Self-assembled copolymer block film is now being fabricated with intricately organized nanostructures, giving them multiple functions and flexibility on a macroscale level never before seen.
National Science Foundation
Contact: Denise Henry
Public Release: 12-Jun-2013
Sensors and Actuators B: ChemicalLuminous bacterial proteins detect chemicals in water Scientists at the Helmholtz-Zentrum Dresden-Rossendorf have developed a simple color sensor principle which facilitates the detection of residual medications, trace metals from industrial process waters, and many other substances. This is the concept: If the analyzed sample shines red, then the water is 'clean;' if its color turns green, however, then it contains the substances the scientists wish to detect. The researchers recently published their concept in the scientific journal Sensors and Actuators B: Chemical.
German Federal Ministry of Education and Research
Contact: Anja Weigl
Public Release: 12-Jun-2013
Cancer ResearchNanotechnology helps track and improve drug action in pancreatic cancer Scientists from Sydney's Garvan Institute of Medical Research, in collaboration with colleagues from the Beatson Institute for Cancer Research in Glasgow UK, have been able to show ways in which we can markedly improve drug targeting of solid tumors, using tiny 'biosensors' along with new advanced imaging techniques. In real time and in three dimensions, these technologies can show us how cancers spread and how active cancer cells respond to a particular drug.
Cancer Research UK, Australian Research Council, National Health and Medical Research Council, Cancer Institute NSW
Contact: Alison Heather
Showing releases 101-125 out of 1561. << < 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 > >>
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