SLAC topics

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 SLAC develops materials to improve the performance of batteries, fuel cells and other energy technologies and set the stage for technologies of the future.

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Energy sciences

In materials hit with light, individual atoms and vibrations take disorderly paths.

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Join us for five days of ultrafast science from April 17 to 21.

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TIMES applies the power of theory to the search for novel materials with remarkable properties that could revolutionize technology.

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Paving the way for flexible electronics, engineers have developed a plastic electrode that stretches like rubber but carries electricity like wires.

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Using an electric field, researchers drew magnetic designs in nonmagnetic material. These efforts could lead to new types of storage devices.

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Computer simulations by SLAC physicists show how light pulses can create channels that conduct electricity with no resistance in some atomically thin semiconductors.

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Scientists at Stanford and SLAC use diamondoids – the smallest possible bits of diamond – to assemble atoms into the thinnest possible electrical wires.

Diamondoids on a lab bench and under microscope, with penny for scale
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SLAC experiments demonstrate a new way to access valence electrons, which are important in forming chemical bonds and determine many of a material’s properties.

Yong Sing You and Shambhu Ghimire in the PULSE laser laboratory
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Award honors accomplishments in condensed matter physics and electrochemistry at SSRL.

Trevor Petach
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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...

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The goal of the DuraMat consortium is to make solar modules last longer, and thus drive down the cost of solar energy.

Image of solar panels
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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...

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Liu acknowledged for wide-ranging work in energy materials, catalysis, carbon sequestration, material in extreme conditions and scientific big data mining.