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Thermal energy in ordinary crystal materials takes the form of tiny atomic vibrations that ripple through the material in waves. Instead of spreading evenly through the material, some of the energy will clump into little packets. Scientists had thought that these energy packets, which they call intr...
To study questions of why the universe has matter, physicists can try to create another ?Big Bang' somewhere and study how it evolves. If they only do it once, however, like flipping a coin, there is bias. So they must run a few thousand ?Big Bangs' and wait 14 billion years for each one and see how...
Nano-sized palladium particles elevate the performance of a new hydrogen microsensor to an unprecedented level, according to Oak Ridge National Laboratory's Nickolay Lavrik. The key innovation is based on the fact nano-sized palladium particles react very quickly to hydrogen gas. "Our hydrogen senso...
Researchers at Oak Ridge National Laboratory are making new functional nanocomposite materials by inserting nanoparticles into asymmetric block copolymer films, resulting in promising new matrices on which such materials can be constructed. The Magnetism Reflectometer at ORNL's Spallation Neutron So...
Enterprises from energy production to environmental cleanup depend on chemistry. A multi-institutional team has generated 70 publications in three years to demonstrate the prodigious scientific output of the world's fastest simulations exploring a continuum from chemistry to materials science. Many ...
Rare earth elements vital to electric and hybrid vehicles and numerous other energy technologies could one day be replaced at least in part by compounds of heavy transition elements, a team of researchers has discovered. This finding goes against conventional wisdom that high performance magnets req...
Nanoscale robots that can flow through blood or repair complex electronics may yet be a possibility with the help of a new strategy developed at Oak Ridge National Laboratory. Although devices such as computer processors can effectively handle electrical signals at the length scale of 10 nanometers,...
Eliminating barriers to energy efficiency of U.S. industry is the focus of a new report commissioned by the Department of Energy and performed by Georgia Institute of Technology and Oak Ridge National Laboratory. As the consumer of about one-third of the nation's energy, the industrial sector presen...
When converting corn into ethanol, a lot of lignin and cellulosic material is left over. We could get energy out of the remains and turn them into other useful chemicals—if only we had controllable, efficient processes. To improve those processes, computational chemist Ariana Beste and experimental ...
Spin valves are widely used in computing applications and are seen as a potentially revolutionary technology in applications such as memory chips and miniature chips and sensors. They are a part of the suite of technologies known as "spintronics," which use the magnetic property of electrons called ...