Award honors accomplishments in condensed matter physics and electrochemistry at SSRL.
Understanding how a material’s electrons interact with vibrations of its nuclear lattice could help design and control novel materials, from solar cells to high-temperature superconductors.
The goal of the DuraMat consortium is to make solar modules last longer, and thus drive down the cost of solar energy.
Researchers have engineered a low-cost plastic material that could become the basis for clothing that cools the wearer, reducing the need for energy-consuming air conditioning.
Liu acknowledged for wide-ranging work in energy materials, catalysis, carbon sequestration, material in extreme conditions and scientific big data mining.
Method creates new opportunities for studies of extremely fast processes in biology, chemistry and materials science.
A ‘nonlinear’ phenomenon that seemingly turns materials transparent is seen for the first time in X-rays at SLAC’s Linac Coherent Light Source.
Researchers at SLAC and Stanford have created a nanostructured device, about half the size of a postage stamp, that harnesses more of the sun's spectrum of light to disinfect water much faster than with ultraviolet rays alone.
Silicon chips can store data in billionths of a second, but phase-change memory could be 1,000 times faster, while using less energy and requiring less space.
The White House announced $50 million in funding for ‘Battery500’, a five year effort, as part of a package of initiatives to accelerate adoption of electric vehicles in the U.S.