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Key: Meeting M      Journal J      Funder F

Showing releases 1526-1550 out of 1794.

<< < 57 | 58 | 59 | 60 | 61 | 62 | 63 | 64 | 65 | 66 > >>

Public Release: 25-Nov-2013
Dunn Foundation awards bioscience grants
The John S. Dunn Foundation provides seed grants for interdisciplinary projects between scientists at Rice University's BioScience Research Collaborative and researchers at other GCC member institutions. These new projects will focus on research in cancer diagnostics and treatment and vascular health and on development of a scientific meeting addressing plant-inspired solar energy.
John S. Dunn Foundation

Contact: David Ruth
Rice University

Public Release: 25-Nov-2013
Rice scientists ID new catalyst for cleanup of nitrites
Rice University researchers have found that gold and palladium nanoparticles can rapidly break down nitrites, a common contaminant in drinking water that often results from overuse of agricultural fertilizers. The nanoengineered catalysts were 7.5 times more efficient at reducing nitrites than previously studied catalysts made of palladium and aluminum oxide.
National Science Foundation, Rice University's Smalley Institute, Welch Foundation

Contact: Jade Boyd
Rice University

Public Release: 25-Nov-2013
Nature Nanotechnology
The smallest, most sensitive measuring device for superconductors was created at the Weizmann Institute.

Contact: Yivsam Azgad
Weizmann Institute of Science

Public Release: 25-Nov-2013
Nature Physics
Ultra-sensitive force sensing with a levitating nanoparticle
A recent study led by researchers of the Institute of Photonic Sciences achieved the highest force sensitivity ever observed with a nano-mechanical resonator. The scientific results of this study have been published in Nature Physics.

Contact: Alina Hirschmann
ICFO-The Institute of Photonic Sciences

Public Release: 24-Nov-2013
Nature Materials
Diamond 'flaws' pave way for nanoscale MRI
Breakthrough offers high-sensitivity nanoscale sensors, and could lead to magnetic imaging of neuron activity and thermometry on a single living cell.

Contact: Dr. Mete Atature
University of Cambridge

Public Release: 22-Nov-2013
New microscope captures movements of atoms and molecules
A new microscope invented at Michigan State University allows scientists to zoom in on the movements of atoms and molecules.
National Science Foundation, US Department of Energy

Contact: Layne Cameron
Michigan State University

Public Release: 22-Nov-2013
Angewandte Chemie
Copper promises cheaper, sturdier fuel cells
Duke chemists are exploring the use of copper nanowires in fuel cells to convert solar energy into storable fuel. Copper nanowire catalysts cost less to produce than their indium tin oxide counterparts because they can be "printed" on pieces of glass or plastic in a liquid ink form, using a machine that functions much like a printing press. The nanowires can also be incorporated into transparent, flexible films.
National Science Foundation

Contact: Erin Weeks
Duke University

Public Release: 21-Nov-2013
'Wonder of Nanotechnology' details research enabling nanoscale optoelectronic devices
The inspiration of nature in studying nanoscale structures and the ability to control material composition on the nanometer scale are helping photonics engineers to create new devices and materials that transcend the properties of naturally occurring materials. A new book published by SPIE, the international society for optics and photonics, presents state-of-the-art research in the field.

Contact: Amy Nelson
SPIE--International Society for Optics and Photonics

Public Release: 21-Nov-2013
Nature Communications
What can happen when graphene meets a semiconductor
A UWM study has found that intrinsic ripples form on a sheet of graphene when it is placed on top of a semiconductor. The ripples further change the Schottky barrier height, affecting electron transport.

Contact: Lian Li
University of Wisconsin - Milwaukee

Public Release: 21-Nov-2013
Scientific Reports
Infrared vision lets researchers see through -- and into -- multiple layers of graphene
A University at Buffalo-led research team has developed a technique for "seeing through" a stack of graphene sheets to identify and describe the electronic properties of each individual sheet -- even when the sheets are covering each other up.

Contact: Charlotte Hsu
University at Buffalo

Public Release: 21-Nov-2013
Advanced Healthcare Materials
Ultrasound, nanoparticles may help diabetics avoid the needle
A new nanotechnology-based technique for regulating blood sugar in diabetics may give patients the ability to release insulin painlessly using a small ultrasound device, allowing them to go days between injections -- rather than using needles to give themselves multiple insulin injections each day.
National Institutes of Health

Contact: Matt Shipman
North Carolina State University

Public Release: 20-Nov-2013
International Journal of Heat and Mass Transfer
Magnetic nanoparticles could aid heat dissipation
MIT researchers find that particles suspended in cooling water could prevent hotspots in nuclear plant cooling systems and electronics.
University of Newcastle, Granite Power Ltd, Australian Research Council, King Saud University

Contact: Sarah McDonnell
Massachusetts Institute of Technology

Public Release: 20-Nov-2013
Physical Review Letters
Scientists create perfect solution to iron out kinks in surfaces
A new technique that allows curved surfaces to appear flat to electromagnetic waves has been developed by scientists at Queen Mary University of London. The discovery could hail a step-change in how antennas are tailored to each platform, which could be useful to a number of industries that rely on high performance antennas for reliable and efficient wireless communications.

Contact: Neha Okhandiar
Queen Mary, University of London

Public Release: 20-Nov-2013
BU, MIT team engineers add new wrinkles to waterproofing
Intuition tells us that a smooth surface should shed water faster than a textured one. But a team of engineers from Boston University and the Massachusetts Institute of Technology have engineered a wrinkled surface that sheds liquid much faster than a smooth one, an innovation that has implications for a wide variety of materials that work better when dry.
National Science Foundation, Defense Advanced Research Projects Agency

Contact: Mike Seele
Boston University College of Engineering

Public Release: 19-Nov-2013
Nature Materials
Stanford study could lead to paradigm shift in organic solar cell research
A new study by Stanford scientists overturns a widely held explanation for how organic photovoltaics turn sunlight into electricity.
Stanford Center for Advanced Molecular Photovoltaics, US Department of Energy

Contact: Mark Shwartz
Stanford University

Public Release: 19-Nov-2013
Scientific Reports
Researchers develop technique to convert thermoelectric material into high performance electricity
A team of Clemson University physicists consisting of nanomaterial scientists and thermoelectricians worked synergistically through the newly established Clemson Nanomaterials Center to develop a novel technique of tailoring thermoelectric properties of n-type bismuth telluride for high thermoelectric performance. Their findings were published in journal Scientific Reports.

Contact: Ramakrishna Podila
Clemson University

Public Release: 19-Nov-2013
Chemistry of Materials
New technique controls dimensions of gold nanorods while manufacturing on a large scale
North Carolina State University researchers have a developed a technique for efficiently producing nanoscale gold rods in large quantities while simultaneously controlling the dimensions of the nanorods and their optical properties. The optical properties of gold nanorods make them desirable for use in biomedical applications ranging from imaging technologies to cancer treatment.
National Science Foundation, National Institutes of Health

Contact: Matt Shipman
North Carolina State University

Public Release: 18-Nov-2013
Nature Physics
Chaotic physics in ferroelectrics hints at brain-like computing
Unexpected behavior in ferroelectric materials explored by researchers at the Department of Energy's Oak Ridge National Laboratory supports a new approach to information storage and processing.

Contact: Morgan McCorkle
DOE/Oak Ridge National Laboratory

Public Release: 18-Nov-2013
Crystal Growth & Design
Pressure cooking to improve electric car batteries
Researchers at the University of California, Riverside's Bourns College of Engineering have redesigned the component materials of the battery in an environmentally friendly way to solve some of the problems associated with electric car batteries. By creating nanoparticles with a controlled shape, they believe smaller, more powerful and energy efficient batteries can be built.

Contact: Sean Nealon
University of California - Riverside

Public Release: 18-Nov-2013
ACS Nano
Penn produces graphene nanoribbons with nanopores for fast DNA sequencing
Researchers at the University of Pennsylvania have made an advance towards realizing a new gene sequencing technique based on threading DNA through a tiny hole in a layer of graphene. Earlier versions of the technique only made use of graphene's unbeatable thinness, but the Penn team's research shows how the material's unique electrical properties may be employed to make faster and more sensitive sequencing devices.
National Science Foundation, National Institutes of Health

Contact: Evan Lerner
University of Pennsylvania

Public Release: 18-Nov-2013
Nature: Single-atom bit forms smallest memory in the world
One atom equals one bit: According to this design principle, we would like to construct magnetic data memories in the future. Presently, a compound of several million atoms is needed to stabilize a magnetic bit in a way that hard disk data are secure for several years. However, researchers from KIT have just made a big step towards a single-atom bit: They fixed a single atom on a surface such that the magnetic spin remained stable for 10 minutes.

Contact: Monika Landgraf
Helmholtz Association

Public Release: 17-Nov-2013
Nature Nanotechnology
Columbia engineers make world's smallest FM radio transmitter
A team of Columbia Engineering researchers, led by Mechanical Engineering Professor James Hone and Electrical Engineering Professor Kenneth Shepard, has taken advantage of graphene's special properties -- its mechanical strength and electrical conduction -- and created a nano-mechanical system that can create FM signals, in effect the world's smallest FM radio transmitter. The study is published online on Nov. 17, in Nature Nanotechnology.
US Air Force, Qualcomm Innovation Fellowship 2012

Contact: Holly Evarts
Columbia University

Public Release: 17-Nov-2013
Nature Chemistry
Scientists invent self-healing battery electrode
Researchers have made the first battery electrode that heals itself, opening a new and potentially commercially viable path for making the next generation of lithium ion batteries for electric cars, cell phones and other devices. The secret is a stretchy polymer that coats the electrode, binds it together and spontaneously heals tiny cracks that develop during battery operation, said the team from Stanford University and the Department of Energy's SLAC National Accelerator Laboratory.
US Department of Energy Office of Science

Contact: Andy Freeberg
DOE/SLAC National Accelerator Laboratory

Public Release: 17-Nov-2013
Nature Nanotechnology
Graphene nanoribbons for 'reading' DNA
One of the methods used for examining the molecules in a liquid consists in passing the fluid through a nano-sized hole so as to detect their passage. EPFL researchers have found a way to improve this technique by using a material with unique properties: graphene.
European Research Council

Contact: Aleksandra Radenovic
Ecole Polytechnique Fédérale de Lausanne

Public Release: 15-Nov-2013
Quantum state world record smashed
A normally fragile quantum state has been shown to survive at room temperature for a world record 39 minutes, overcoming a key barrier towards building ultrafast quantum computers. The research, published in the journal Science, was led by Mike Thewalt (Simon Fraser University, Canada), with involvement from researchers at UCL and Oxford University, and material provided from collaborating institutes in Berlin.

Contact: Oli Usher
University College London

Showing releases 1526-1550 out of 1794.

<< < 57 | 58 | 59 | 60 | 61 | 62 | 63 | 64 | 65 | 66 > >>