Corannulene is a carbon molecule with a unique shape similar to the better known fullerene and promising properties A team of scientists from SISSA and the University of Zurich carried out computer simulations of the ... - Read More
A research team led by North Carolina State University has identified and synthesized a material that can be used to create efficient plasmonic devices that respond to light in the mid infrared IR range This ... - Read More
The future of electronics could lie in a material from its past as researchers from The Ohio State University work to turn germanium the material of 1940s transistors into a potential replacement for silicon At ... - Read More
Efficiency is big in the tiny world of thermoelectric nanowires Researchers at Sandia National Laboratories say better materials and manufacturing techniques for the nanowires could allow carmakers to harvest power from the heat wasted by ... - Read More
Scientists have used an X ray laser at the Department of Energy's SLAC National Accelerator Laboratory to get the first glimpse of the transition state where two atoms begin to form a weak bond on ... - Read More
A new explanation for a type of order or symmetry in an exotic material made with uranium may lead to enhanced computer displays and data storage systems and more powerful superconducting magnets for medical imaging ... - Read More
Scientists used supercomputers to find a new class of materials that possess an exotic state of matter known as the quantum spin Hall effect The researchers published their results in the journal Science in December ... - Read More
Scientists have used an X ray laser at the Department of Energy’s SLAC National Accelerator Laboratory to get the first glimpse of the transition state where two atoms begin to form a weak bond on ... - Read More
New battery technology from the University of Michigan should be able to prevent the kind of fires that grounded Boeing 787 Dreamliners in 2013. The innovation is an advanced barrier between the electrodes in a ... - Read More
The idea of computing systems based on controlling atomic spins just got a boost from new research performed at the Massachusetts Institute of Technology MIT and the U S Department of Energy's DOE Brookhaven National ... - Read More
But how are the electronic properties of nanodiamonds deposited on a solid state substrate different from those displayed by nanodiamonds in aqueous solutions Dr Tristan Petit working in the HZB team headed by Prof Emad ... - Read More
Earth's magnetic field is crucial for our existence as it shields the life on our planet's surface from deadly cosmic rays It is generated by turbulent motions of liquid iron in Earth's core Iron is ... - Read More
Researchers at Chalmers University of Technology have discovered that the insulation plastic used in high voltage cables can withstand a 26 per cent higher voltage if nanometer sized carbon balls are added This could result ... - Read More
ETH researchers have developed a comprehensive model to explain how electrons flow inside new types of solar cells made of tiny crystals The model allows for a better understanding of such cells and may help ... - Read More
Understanding this kind of electronic effects in organic molecules is crucial for their use in optoelectronic applications for example in organic light emitting diodes OLEDs organic field effect transistors OFETs and solar cells In their ... - Read More
Theoretical physicists at Rice University are living on the edge as they study the astounding properties of graphene In a new study they figure out how researchers can fracture graphene nanoribbons to get the edges ... - Read More
A research team led by North Carolina State University has developed a new technique for determining the role that a material's structure has on the efficiency of organic solar cells which are candidates for low ... - Read More
University of California Berkeley scientists have proved a fundamental relationship between energy and time that sets a quantum speed limit on processes ranging from quantum computing and tunneling to optical switching The energy time uncertainty ... - Read More
Individual protons and neutrons in atomic nuclei turn out not to behave according to the predictions made by existing theoretical models This surprising conclusion reached by an international team of physicists including staff members from ... - Read More
Research by scientists attached to the EC's Graphene Flagship has revealed a superfluid phase in ultra low temperature 2D materials creating the potential for electronic devices which dissipate very little energy At the atomic and ... - Read More
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