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Nanotechnology

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Key: Meeting M      Journal J      Funder F

Showing releases 176-200 out of 1712.

<< < 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 > >>

Public Release: 18-Sep-2014
Nano Letters
Toward optical chips
In the next issue of the journal Nano Letters, researchers from MIT's departments of Physics and of Electrical Engineering and Computer Science will describe a new technique for building MoS2 light emitters tuned to different frequencies, an essential requirement for optoelectronic chips. Since thin films of material can also be patterned onto sheets of plastic, the same work could point toward thin, flexible, bright, color displays.

Contact: Kimberly Allen
allenkc@mit.edu
617-253-2702
Massachusetts Institute of Technology

Public Release: 17-Sep-2014
SPIE Optics + Photonics
Proceedings of SPIE
Nature's designs inspire research into new light-based technologies
Solutions required for progress on the frontiers of photonics technology are close at hand: in nature, when viewed through the perspective of engineer, says Montana State University optics researcher Joseph Shaw. Along with Rongguang Liang of the University of Arizona, Shaw chaired the 'Light in Nature' conference presenting new research in the field last month at SPIE Optics + Photonics and being published in the SPIE Digital Library.

Contact: Amy Nelson
amy@spie.org
360-685-5478
SPIE--International Society for Optics and Photonics

Public Release: 17-Sep-2014
Scientific Reports
Oxides discovered by CCNY team could advance memory devices
The quest for the ultimate memory device for computing may have just taken an encouraging step forward. Researchers at The City College of New York led by chemist Stephen O'Brien have discovered new complex oxides that exhibit both magnetic and ferroelectric properties.

Contact: Jay Mwamba
jmwamba@ccny.cuny.edu
212-650-7580
City College of New York

Public Release: 17-Sep-2014
ACS Nano
Nanoscience makes your wine better
One sip of a perfectly poured glass of wine leads to an explosion of flavours in your mouth. Researchers at Aarhus University, Denmark, have now developed a nanosensor that can mimic what happens in your mouth when you drink wine. The sensor measures how you experience the sensation of dryness in the wine.

Contact: Associate Professor Duncan Sutherland, Aarhus University
duncan@inano.au.dk
45-23-38-57-89
Aarhus University

Public Release: 17-Sep-2014
Using solar energy to turn raw materials into ingredients for every day life
QUT scientist Dr. Sarina Sarina, who achieved outstanding progress in driving this energy intensive chemical production process at ambient temperature using light instead of fossil fuels, has won the prestigious Alexander von Humboldt fellowship at the famous Max Planck Institute in Berlin.

Contact: Rose Trapnell
rose.trapnell@qut.edu.au
040-758-5901
Queensland University of Technology

Public Release: 16-Sep-2014
Applied Materials and Interfaces
Nanoribbon film keeps glass ice-free
Rice University scientists who created a deicing film for radar domes have now refined the technology to work as a transparent coating for glass.
The Lockheed Martin Aerospace Co., Office of Naval Research/Multidisciplinary University Research Initiative, Air Force Office of Scientific Research

Contact: David Ruth
david@rice.edu
713-348-6327
Rice University

Public Release: 16-Sep-2014
Nature
Water-based nuclear battery developed by MU can be used to generate electrical energy
From cell phones to cars and flashlights, batteries play an important role in everyday life. Scientists and technology companies constantly are seeking ways to improve battery life and efficiency. Now, for the first time using a water-based solution, researchers at the University of Missouri have created a long-lasting and more efficient nuclear battery that could be used for many applications such as a reliable energy source in automobiles and also in complicated applications such as space flight.

Contact: Jeff Sossamon
sossamonj@missouri.edu
573-882-3346
University of Missouri-Columbia

Public Release: 16-Sep-2014
Journal of Chemical Physics
The future face of molecular electronics
The emerging field of molecular electronics could take our definition of portable to the next level, enabling the construction of tiny circuits from molecular components. In these highly efficient devices, individual molecules would take on the roles currently played by comparatively-bulky wires, resistors and transistors. A team of researchers has identified a potential candidate for use in small-scale electronics: a molecule called picene.

Contact: Jason Socrates Bardi
jbardi@aip.org
240-535-4954
American Institute of Physics

Public Release: 16-Sep-2014
Smart Materials and Structures
'Smart material' chin strap harvests energy from chewing
A chin strap that can harvest energy from jaw movements has been created by a group of researchers in Canada.

Contact: Michael Bishop
michael.bishop@iop.org
01-179-301-032
Institute of Physics

Public Release: 15-Sep-2014
Science
Cells simply avoid chromosome confusion
Reproductive cell division has evolved a simple, mechanical solution to avoid chromosome sorting errors. This natural safeguard prevents incorrect chromosome counts and misalignments that lead to infertility, miscarriage, or congenital conditions.
Wellcome Trust, National Institutes of Health, Packard Fellowship, Ludwig Institute for Cancer Research, Sidney Kimmel Foundation

Contact: Leila Gray
leilag@uw.edu
206-685-0381
University of Washington Health Sciences/UW Medicine

Public Release: 15-Sep-2014
Grant to help commercialize silicon surgical blades
A UC Davis engineering professor has received a grant of $200,000 from the National Science Foundation 'Partnerships for Innovation: Accelerating Innovation Research-Technology Translation' program to move his silicon-based blades towards commercial development as surgical and shaving tools.
National Science Foundation

Contact: Andy Fell
ahfell@ucdavis.edu
530-752-4533
University of California - Davis

Public Release: 15-Sep-2014
Nature Communications
Northeastern University researchers develop novel method for working with nanotubes
Northeastern University researchers have developed a novel method for controllably constructing precise inter-nanotube junctions and a variety of nanocarbon structures in carbon nanotube arrays. The researchers were able to tailor the physical properties of nanotube networks for use in applications from electronic devices to carbon nanotube-reinforced composite materials found in cars and sports equipment. The findings were published in a Nature Communications paper titled 'Sculpting carbon bonds for allotropic transformation through solid-state re-engineering of -sp2 carbon.'
National Science Foundation, The Republic of Korea Ministry of Industry

Contact: John O'Neill
j.oneill@neu.edu
617-373-5460
Northeastern University

Public Release: 15-Sep-2014
ACS Nano
Rice rolls 'neat' nanotube fibers
Rice University scientists make 'neat' carbon nanotube fibers with an acid-free process.
Welch Foundation

Contact: David Ruth
david@rice.edu
713-348-6327
Rice University

Public Release: 15-Sep-2014
Proceedings of the National Academy of Sciences
Elusive quantum transformations found near absolute zero
Scientists mapped quantum phase transitions at temperatures colder than interstellar space. The ultra-cold conditions isolated the fluctuations that define the electronic, magnetic, and thermodynamic performance of metallic materials. The research provides new methods to identify and understand materials with powerful and unexpected properties, including superconductivity.
U.S. Department of Energy

Contact: Justin Eure
jeure@bnl.gov
631-344-2347
DOE/Brookhaven National Laboratory

Public Release: 14-Sep-2014
Nature Medicine
Blood-cleansing biospleen device developed for sepsis therapy
Things can go downhill fast when a patient has sepsis, a life-threatening condition in which bacteria or fungi multiply in a patient's blood -- often too fast for antibiotics to help. A new device inspired by the human spleen and developed by a team at Harvard's Wyss Institute for Biologically Inspired Engineering may radically transform the way doctors treat sepsis.
Defense Advanced Research Projects Agency, DOD/Center for Integration of Medicine and Innovative Technology, Harvard's Wyss Institute

Contact: Kristen Kusek
kristen.kusek@wyss.harvard.edu
617-432-8266
Wyss Institute for Biologically Inspired Engineering at Harvard

Public Release: 12-Sep-2014
Modern Physics Letters B
New family of materials for energy-efficient information storage and processing
Hexagonal rare earth ferrites have been demonstrated to exhibit both spontaneous electric and magnetic dipole moments (as a rare case), which may enable couplings of the static electric and magnetic fields in these materials, suggesting application in energy-efficient information storage and processing.
Nebraska EPSCoR

Contact: Philly Lim
mllim@wspc.com
656-466-5775
World Scientific

Public Release: 11-Sep-2014
NSF funds new method for making materials that can make lighter, more efficient vehicles
Diana Lados, associate professor of mechanical engineering at Worcester Polytechnic Institute and founding director of the university's Integrative Materials Design Center, has received a three-year, $424,000 award from the National Science Foundation to support the development of a new way to manufacture metal-ceramic composites, which can be used to make vehicles lighter and more energy efficient, while significantly increasing their performance.
National Science Foundation

Contact: Michael Dorsey
mwdorsey@wpi.edu
508-831-5609
Worcester Polytechnic Institute

Public Release: 11-Sep-2014
​NTU spin-off achieves breakthrough with innovative multifunction membranes
A young startup at Nanyang Technological University has developed a first-of-its-kind multifunction water filtration membrane.

Contact: Lester Kok
lesterkok@ntu.edu.sg
65-679-06804
Nanyang Technological University

Public Release: 11-Sep-2014
Nano Letters
Researchers create world's largest DNA origami
Researchers have created the world's largest DNA origami, which are nanoscale constructions with applications ranging from biomedical research to nanoelectronics.
National Science Foundation

Contact: Matt Shipman
matt_shipman@ncsu.edu
919-515-6386
North Carolina State University

Public Release: 11-Sep-2014
Science
New species of electrons can lead to better computing
Electrons that break the rules and move perpendicular to the applied electric field could be the key to delivering next generation, low-energy computers, a collaboration of scientists from the University of Manchester and the Massachusetts Institute of Technology have found.

Contact: Daniel Cochlin
daniel.cochlin@manchester.ac.uk
44-161-275-8382
University of Manchester

Public Release: 11-Sep-2014
Nature Communications
Graphene paints a corrosion-free future
A thin layer of graphene paint can make impermeable and chemically resistant coatings which could be used for packaging to keep food fresh for longer and protect metal structures against corrosion, new findings from the University of Manchester show.

Contact: Daniel Cochlin
daniel.cochlin@manchester.ac.uk
44-161-275-8382
University of Manchester

Public Release: 11-Sep-2014
Science
The sound of an atom has been captured
Researchers at Chalmers University of Technology are first to show the use of sound to communicate with an artificial atom. They can thereby demonstrate phenomena from quantum physics with sound taking on the role of light. The results will be published in the journal Science.
Swedish Research Council, Knut and Alice Wallenberg Foundation, European Research Council, Wenner-Gren Foundations

Contact: Johanna Wilde
johanna.wilde@chalmers.se
46-317-722-029
Chalmers University of Technology

Public Release: 10-Sep-2014
Nature
Excitonic dark states shed light on TMDC atomic layers
Berkeley Lab researchers believe they have uncovered the secret behind the unusual optoelectronic properties of single atomic layers of TMDC materials, the two-dimensional semiconductors that hold great promise for nanoelectronic and photonic applications.

Contact: Lynn Yarris
lcyarris@lbl.gov
510-486-5375
DOE/Lawrence Berkeley National Laboratory

Public Release: 10-Sep-2014
Nature Communications
UT Arlington research uses nanotechnology to help cool electrons with no external sources
A team of researchers has discovered a way to cool electrons to -228 °C without external means and at room temperature, an advancement that could enable electronic devices to function with very little energy.
National Science Foundation, Office of Naval Research

Contact: Herb Booth
hbooth@uta.edu
817-272-7075
University of Texas at Arlington

Public Release: 10-Sep-2014
Nature Photonics
Advanced light source sets microscopy record
Working at Berkeley Lab's Advanced Light Source, researchers used 'soft' X-rays to image structures only five nanometers in size. This resolution is the highest ever achieved with X-ray microscopy.
US Department of Energy Office of Science

Contact: Lynn Yarris
lcyarris@lbl.gov
510-486-5375
DOE/Lawrence Berkeley National Laboratory

Showing releases 176-200 out of 1712.

<< < 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 > >>