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Key: Meeting M      Journal J      Funder F

Showing releases 251-275 out of 1869.

<< < 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 > >>

Public Release: 25-Apr-2016
Nature Physics
The light stuff: A brand-new way to produce electron spin currents
Publishing in Nature Physics April 25, Colorado State University scientists are the first to demonstrate using non-polarized light to produce in a metal what's called a spin voltage -- a unit of power produced from the quantum spinning of an individual electron.
US Army Research Office, US Department of Energy

Contact: Anne Ju Manning
Colorado State University

Public Release: 25-Apr-2016
Nature Photonics
Rare Earth atoms see the light
Dirk Bouwmeester and colleagues discover a promising new route for combined optical and solid-state-based quantum information

Contact: Julie Cohen
University of California - Santa Barbara

Public Release: 25-Apr-2016
Advanced Material Interfaces
Novel anti-biofilm nano coating developed at Ben-Gurion U.
'Our solution addresses a pervasive need to design environmentally friendly materials to impede dangerous surface bacteria growth,' the BGU researchers from the Avram and Stella Goldstein-Goren Department of Biotechnology Engineering explain. 'This holds tremendous potential for averting biofilm formed by surface-anchored bacteria and could have a tremendous impact.'
Singapore National Research Foundation, Israeli Ministry of Science and Technology, Shimona Geresh Award

Contact: Andrew Lavin
American Associates, Ben-Gurion University of the Negev

Public Release: 21-Apr-2016
Proceedings of the National Academy of Sciences
Columbia Engineering-led team advances single molecule electronic DNA sequencing
Columbia Engineering-led team reports achieving real-time single molecule electronic DNA sequencing at single-base resolution using a protein nanopore array. The team includes researchers from Columbia University, Genia Technologies (Roche), Harvard University, and the National Institute of Standards and Technology. The work sets the stage for revolutionary, cost-effective genetic diagnostic platforms with unprecedented potential for precision medicine. (PNAS, 4/18/2016)
National Institutes of Health

Contact: Holly Evarts
Columbia University School of Engineering and Applied Science

Public Release: 21-Apr-2016
SPIE Defense + Commercial Sensing Meeting
Quantum Information Processing presents first Howard E. Brandt Best Paper Award
Quantum Information Processing has awarded the first annual Howard E. Brandt Best Paper Award to the most outstanding paper published in the journal during the previous year. The winning paper is 'Ultrastrong coupling in a scalable design for circuit QED with superconducting flux qubits' by Mun Dae Kim of the Korea Institute for Advanced Study in Seoul. The award was announced yesterday at the Quantum Information and Computation Conference.
Basic Science Research Program, National Research Foundation of Korea, MOTIE/KEIT

Contact: Joan Robinson

Public Release: 20-Apr-2016
Energy Letters
All powered up
University of California, Irvine researchers have invented nanowire-based battery material that can be recharged hundreds of thousands of times, moving us closer to a battery that would never require replacement. The breakthrough work could lead to commercial batteries with greatly lengthened lifespans for computers, smartphones, appliances, cars and spacecraft.
DOE/Basic Energy Sciences

Contact: Brian Bell
University of California - Irvine

Public Release: 20-Apr-2016
Scientific Reports
With simple process, UW-Madison engineers fabricate fastest flexible silicon transistor
One secret to creating the world's fastest silicon-based flexible transistors: a very, very tiny knife. Working in collaboration with colleagues around the country, University of Wisconsin-Madison engineers have pioneered a unique method that could allow manufacturers to easily and cheaply fabricate high-performance transistors with wireless capabilities on huge rolls of flexible plastic.

Contact: Zhenqiang (Jack) Ma
University of Wisconsin-Madison

Public Release: 20-Apr-2016
Nanoscale Research Letters
Physicists build 'electronic synapses' for neural networks
A team of scientists from the Moscow Institute of Physics and Technology have created prototypes of 'electronic synapses' based on ultra-thin films of hafnium oxide. These prototypes could potentially be used in fundamentally new computing systems.

Contact: Valerii Roizen
Moscow Institute of Physics and Technology

Public Release: 20-Apr-2016
Journal of Vacuum Science & Technology A
NRL reveals novel uniform coating process of p-ALD
Particle atomic layer deposition (p-ALD) is highlighted as a technology that can create new and exciting designer core/shell particles to be used as building blocks for the next generation of complex multifunctional nanocomposites.

Contact: Daniel Parry
Naval Research Laboratory

Public Release: 20-Apr-2016
Journal of the American Chemical Society
Researchers develop new semiconducting polymer for forthcoming flexible electronics
A joint team of Korean researchers has developed a new n-type semiconducting polymer with superior electron mobility and oxidative stability. The team modified an n-type conjugated polymer with semi-fluoroalkyl side chains. As a result, the modified polymer was shown to form a superstructure composed of polymer backbone crystals and side-chain crystals, resulting in a high degree of semicrystalline order.
Center for Advanced Soft Electronics, National Research Foundation of Korea, Ministry of Science, ICT and Future Planning

Contact: YunMee Jung
Pohang University of Science & Technology (POSTECH)

Public Release: 19-Apr-2016
Nano Letters
Making electronics out of coal
MIT engineers have discovered how coal can be used for electronics, by noting chemical, electrical, and optical properties of thin films of different coal types.
MIT Energy Initiative, ExxonMobil Energy Fellow Program

Contact: Sarah McDonnell
Massachusetts Institute of Technology

Public Release: 19-Apr-2016
NASA investigates 3-D printing for building densely populated electronic assemblies
A team of NASA technologists at the Goddard Space Flight Center in Greenbelt, Maryland, however, has begun investigating the use of a technique called aerosol jet printing or direct-write manufacturing to produce new detector assemblies that are not possible with traditional assembly processes.

Contact: Lori Keesey
NASA/Goddard Space Flight Center

Public Release: 19-Apr-2016
AINST Official Launch Scientific Meeting
Microsoft supports Sydney University quantum effort
Leading scientists and directors from Microsoft's quantum computing program are visiting Australia to speak at today's launch of the Australian Institute for Nanoscale Science and Technology and its headquarters, a new $150m building where electrons are manipulated at temperatures of just above -273.15C -- colder than deep space. The University of Sydney is world-leading in research at the interface between quantum physics and the grand engineering challenges of building reliable quantum machines.

Contact: Vivienne Reiner
University of Sydney

Public Release: 19-Apr-2016
AINST Official Launch Scientific Meeting
Australia's first facility built for nanoscience launched, world-leading
Leading scientific figures, pioneers and senior representatives including from Microsoft, US, are visiting Sydney for the launch of the Australian Institute for Nanoscale Science and Technology -- and the official opening of its headquarters -- the most advanced facility for nanoscience in the region, where design, fabrication and testing of devices can occur under one roof. The new $150m hub includes rooms that are among most electromagnetically and mechanically stable environments in the world.
University of Sydney

Contact: Vivienne Reiner
University of Sydney

Public Release: 19-Apr-2016
Nature Photonics
Nature Photonics: Light source for quicker computer chips
Worldwide growing data volumes make conventional electronic processing reach its limits. Future information technology is therefore expected to use light as a medium for quick data transmission also within computer chips. Researchers under the direction of KIT have now demonstrated that carbon nanotubes are suited for use as on-chip light source for tomorrow's information technology, when nanostructured waveguides are applied to obtain the desired light properties. The scientists now present their results in Nature Photonics.

Contact: Monika Landgraf
Karlsruher Institut für Technologie (KIT)

Public Release: 18-Apr-2016
Physical Review Letters
What screens are made of: New twists (and bends) in LCD research
A research team has directly measured a spiral molecular arrangement formed by liquid crystals that could help unravel its mysteries and possibly improve the performance of electronic displays.

Contact: Glenn Roberts Jr.
DOE/Lawrence Berkeley National Laboratory

Public Release: 18-Apr-2016
Science Advances
Mechanics of the cell
Living cells must alter their external form actively, otherwise functions like cell division would not be possible. At the Technical University of Munich the biophysicist Professor Andreas Bausch and his team have developed a synthetic cell model to investigate the fundamental principles of the underlying cellular mechanics.
European Research Council, German Research Foundation

Contact: Dr. Andreas Battenberg
Technical University of Munich (TUM)

Public Release: 18-Apr-2016
Science Advances
Magnetic vortices defy temperature fluctuations
Magnetic nanovortices in magnetite minerals are reliable witnesses of the Earth's history, as revealed by the first high-resolution studies of these structures undertaken by scientists from Germany and the United Kingdom. The magnetic structures are built during the cooling of molten rock and reflect the earth's magnetic field at the time of their formation.
Natural Environment Research Council, European Research Council

Contact: Angela Wenzik
Forschungszentrum Juelich

Public Release: 18-Apr-2016
Nature Communications
Nanomaterial to drive new generation of solar cells: ANU media release
Physicists have discovered radical new properties in a nanomaterial which opens new possibilities for highly efficient thermophotovoltaic cells, which could one day harvest heat in the dark and turn it into electricity. The research team from the Australian National University and the University of California Berkeley demonstrated a new artificial material, or metamaterial, that glows in an unusual way when heated.

Contact: Dr. Sergey Kruk
Australian National University

Public Release: 18-Apr-2016
Proceedings of the National Academy of Sciences
Metastasis-promoting circulating tumor cell clusters pass through capillary-sized vessels
Massachusetts General Hospital investigators have found that circulating tumor cell clusters -- which are more efficient in spreading cancer throughout the body than are single CTCs -- can pass through capillary-sized blood vessels. Their findings contradict the widely-held belief that CTC clusters are too large to pass through capillaries and suggest potential strategies to reduce clusters' metastatic potential.
National Institutes of Health, Howard Hughes Medical Institute, Alex's Lemonade Stand Foundation, Live Like Bella Foundation, NIH/National Institute of Biomedical Imaging and Bioengineering Quantum

Contact: Noah Brown
Massachusetts General Hospital

Public Release: 18-Apr-2016
Proceedings of the National Academy of Sciences
Nanoparticle acts like Trojan horse to halt asthma
In a new approach to treating asthma and allergies, a biodegradable nanoparticle acts like a Trojan horse, hiding an allergen in a friendly shell, to convince the immune system not to attack it, according to new research. As a result, the allergic reaction in the airways is shut down long- term and an asthma attack prevented. The technology can be applied to food allergies as well and is currently being tested in a mouse model of peanut allergy, similar to food allergy in humans.
National Institutes of Health

Contact: Marla Paul
Northwestern University

Public Release: 18-Apr-2016
Nature Materials
A new way to get electricity from magnetism
By showing that a phenomenon dubbed the 'inverse spin Hall effect' works in several organic semiconductors -- including carbon-60 buckyballs -- University of Utah physicists changed magnetic 'spin current' into electric current. The efficiency of this new power conversion method isn't yet known, but it might find use in future electronic devices including batteries, solar cells and computers.
National Science Foundation, University of Utah-NSF Materials Research Science and Engineering Center

Contact: Lee J. Siegel
University of Utah

Public Release: 17-Apr-2016
American Association for Cancer Research Annual Meeting 2016
AACR: Life-preserver microbubbles float tumor cells for analysis
A University of Colorado Cancer Center study presented at the American Association for Cancer Research Annual Meeting 2016 demonstrates the use of gas microbubbles to selectively attach to and float circulating tumor cells from blood samples, allowing analysis of the isolated cells.

Contact: Garth Sundem
University of Colorado Anschutz Medical Campus

Public Release: 15-Apr-2016
Micro and Nanosystems
Numerical simulations of tensile tests of red blood cells
The researchers investigate the effects of the hold position of the red blood cells on strain field during tensile testing using numerical simulations.

Contact: Faizan ul Haq
Bentham Science Publishers

Public Release: 15-Apr-2016
Nature Communications
First-ever videos show how heat moves through materials at the nanoscale and speed of sound
Using a state-of-the-art ultrafast electron microscope, University of Minnesota researchers have recorded the first-ever videos showing how heat moves through materials at the nanoscale traveling at the speed of sound.
National Science Foundation, University of Minnesota Materials Research Science and Engineering Center

Contact: Rhonda Zurn
University of Minnesota

Showing releases 251-275 out of 1869.

<< < 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 > >>