SLAC topics

Stanford Synchrotron Radiation Lightsource (SSRL) RSS feed

SSRL is a pioneering synchrotron radiation facility known for outstanding science, technological innovation and user support. It provides extremely bright X-rays that scientists use for a wide range of research that probes matter on the scales of atoms and molecules.

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Aerial view of Stanford Synchrotron Radiation Lightsource (SSRL)

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A SLAC/Stanford manufacturing technique could help make inexpensive polymer-based solar cells an attractive alternative to silicon-crystal wafers.

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SUNCAT and SIMES researchers have received funding from Stanford's Global Climate and Energy Project to support research related to generating renewable fuels.

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A researcher interviewed SLAC and Stanford administrators, scientists and Nobel laureates and sifted through archival materials to better understand the drivers for change in...

Image - Olof Hallonsten
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A new design tested in experiments at SLAC National Accelerator Laboratory could improve plastic solar panel materials.

Scientists devised a new arrangement of solar cell ingredients, with bundles of polymer donors (green rods) and neatly organized carbon molecules, also known as fullerenes or buckyballs, serving as acceptors (purple, tan). (UCLA)
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X-ray studies at SLAC have observed an exotic property that could improve performance in ever-smaller computer components.

3-D negative electronic compressibility, observed for the first time in research conducted, in part,
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Anne Sakdinawat, a SLAC scientist, has been selected to receive a grant to advance her work in producing and using new types of X-ray...

Image - Anne Sakdinawat (SLAC National Accelerator Laboratory)
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Scientists at SLAC and Utrecht University have identified how catalysts degrade when used to refine crude oil.

Image - Research at the Department of Energy’s SLAC National Accelerator Laboratory could lead to more efficient gasoline production. (@iStockphoto/Patryk Kosmider)
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Recent experiments at SLAC's SSRL reveal that an organic semiconductor transports electrical charge more efficiently when combined with the wonder material graphene.

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Scientists have used an X-ray laser at SLAC to get the first glimpse of the transition state where two atoms begin to form a...

Illustration of a transition state in a chemical reaction.
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Research reveals that the bacterial immune system can better destroy viral attackers by saving genetic records of previously encountered viruses.

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Research performed in part at SLAC has provided new insights into how "TH proteins" couple two important processes needed to maintain healthy cells.

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He’s known for exploring fundamental properties of novel materials on the nanoscale, and for developing new tools for the exploration.

Stanford and SLAC Professor Tony Heinz