SLAC topics

Energy sciences RSS feed

One of the most urgent challenges of our time is discovering how to generate the energy and products we need sustainably, without compromising the well-being of future generations by depleting limited resources or accelerating climate change. SLAC pursues this goal on many levels.

Studies of atomic-level processes

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Following a boom in catalysis users at SSRL, Beam Line 10-2 has been transformed and outfitted with new technologies. 

Beam Line 10-2 hutch
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SLAC, Stanford researchers estimate that reducing harmful chemical emissions could cut cancer risks from smoke exposure by over 50%.

A forestry worker performing a prescribed burn
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Nickel dopants could improve sustainable production of ethylene oxide, a chemical widely used in industrial manufacturing.

An illustration of purple balls (oxygen) gather near a nickel atom embedded in a sheet of silver.
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Supported by SLAC’s catalysis group, researchers have discovered a promising method to remove contaminants during the making of polymers.

Molecules strike a material below.
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SSRL scientists have figured out how platinum electrodes dissolve, potentially paving the way for renewable energy improvements.

White dots on a black background, with additional purple and blue dots and purple triangles connecting them.
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As a member of a collaborative team led by General Atomics, SLAC will help bridge basic research programs with the growing fusion industry. 

Graphic representation of lasers hitting a fusion fuel target in a fusion target chamber
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The research lays the groundwork for deeper exploration of high-temperature superconducting materials, with real-world applications such as lossless power grids and advanced quantum technologies.

superconductivity
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A market and supply chain analysis for sodium- and lithium-ion batteries is the first by STEER, a new Stanford-SLAC energy technology analysis program.

An illustration of the periodic table, featuring lithium and sodium, along with a data graph.
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LCLS X-rays allowed researchers to connect the molecular dynamics of supercritical carbon dioxide, used in industrial and environmental applications, with its unique properties.

A figure showing atoms and blue blobs projecting an image onto a screen.
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Consumers’ real-world electric vehicle driving benefits batteries more than the steady use simulated in almost all laboratory tests of new battery designs, a Stanford-SLAC...

An illustration of a car inside a battery.
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A SLAC study shows a process called atomic relaxation offers a new way to explore quantum states in these puzzling materials.

Light blue wavy lines on a maroon red background.
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SLAC partners with five national labs and eight universities seeking to increase the supply diversity of EV batteries and relieve supply chain concerns.

SLAC-Stanford Battery Center