Topic: Energy science | SLAC National Accelerator Laboratory

Press Release

After decades of effort, scientists have finally seen the process by which nature creates the oxygen we breathe using SLAC’s X-ray laser.

Press Release

New SLAC-Stanford Battery Center bridges the gaps between discovering, manufacturing and deploying innovative energy storage solutions.

Illustration showing a battery researcher at left, a battery at center and a grid of battery applications at right.

News Feature

The SLAC-Stanford team pulled hydrogen directly from ocean waters. Their work could help efforts to generate low-carbon fuel for electric grids, cars, boats and...

This photograph shows ocean water funneling over rocks on about half of the photograph and deeper ocean water on the other part of the photograph. It is a view of the ocean from above, in the sky.

News Feature

A research team including SLAC staff engineer Gustavo Cezar shows that charging electric vehicles in the daytime would spread the load on the electric...

Photograph of a man plugging an electric cord into a gray car on a driveway.

News Feature

Spiraling laser light reveals how topological insulators lose their ability to conduct electric current on their surfaces.

Against a black background, thin, glowing red wires at top impinge on the hexagonal surface of a translucent mass. Small white dots travel along the edges of the surface in two directions. Within the mass, two orange cones meet at their tips.

News Brief

Knowing a magnet’s past will allow scientists to customize particle beams more precisely in the future. As accelerators stretch for higher levels of performance...

A magnet on a test stand inside SLAC National Accelerator Laboratory.

News Feature

Researchers discover that a spot of molecular glue and a timely twist help a bacterial enzyme convert carbon dioxide into carbon compounds 20 times...

An illustration shows the pocket in an enzyme called ECR where the carbon fixing reaction takes place.

News Feature

It’s a significant step in understanding these whirling quasiparticles and putting them to work in future semiconductor technologies.

A beam of light hits a semiconductor material, ejecting an electron (blue) which goes on to partner with a hole (orange) to form a whirling compound particle, the exciton.

News Feature

SLAC’s Matt Garrett and Susan Simpkins talk about tech transfer that brings innovations from the national lab to the people, including advances for medical...

News Feature

A cellphone-sized device automatically adjusts a home's power use up or down to save the consumer money and increase the resiliency of the electric...

Aerial image of workers installing solar panels on a home.

News Feature

X-ray laser experiments show that intense light distorts the structure of a thermoelectric material in a unique way, opening a new avenue for controlling...

Illustration shows two ball-and-stick molecules in pink and red separated by a blurred streak representing how the first structure is slightly deformed into the second.

News Feature

Cryo-EM snapshots of the solid-electrolyte interphase, or SEI, reveal its natural swollen state and offer a new approach to lithium-metal battery design.

A battery's liquid electrolyte clings to small holes in a cryo-EM sample holder.

After decades of effort, scientists have finally seen the process by which nature creates the oxygen we breathe using SLAC’s X-ray laser.

New SLAC-Stanford Battery Center bridges the gaps between discovering, manufacturing and deploying innovative energy storage solutions.

The SLAC-Stanford team pulled hydrogen directly from ocean waters. Their work could help efforts to generate low-carbon fuel for electric grids, cars, boats and other infrastructure.

A research team including SLAC staff engineer Gustavo Cezar shows that charging electric vehicles in the daytime would spread the load on the electric grid, save money and reduce greenhouse gas emissions.

Spiraling laser light reveals how topological insulators lose their ability to conduct electric current on their surfaces.

Knowing a magnet’s past will allow scientists to customize particle beams more precisely in the future. As accelerators stretch for higher levels of performance, understanding subtle effects, such as those introduced by magnetic history, is becoming more critical.

Researchers discover that a spot of molecular glue and a timely twist help a bacterial enzyme convert carbon dioxide into carbon compounds 20 times faster than plant enzymes do during photosynthesis. The results stand to accelerate progress toward converting carbon...

It’s a significant step in understanding these whirling quasiparticles and putting them to work in future semiconductor technologies.

SLAC’s Matt Garrett and Susan Simpkins talk about tech transfer that brings innovations from the national lab to the people, including advances for medical devices and self-driving vehicles.

A cellphone-sized device automatically adjusts a home's power use up or down to save the consumer money and increase the resiliency of the electric grid.

X-ray laser experiments show that intense light distorts the structure of a thermoelectric material in a unique way, opening a new avenue for controlling the properties of materials.

Cryo-EM snapshots of the solid-electrolyte interphase, or SEI, reveal its natural swollen state and offer a new approach to lithium-metal battery design.

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SLAC science explained

Vera C. Rubin Observatory LSST

Diversity, Equity & Inclusion

Shocking to the Core: Adventures in Earth Science

Energy science

Researchers capture elusive missing step in the final act of photosynthesis

New SLAC-Stanford Battery Center targets roadblocks to a sustainable energy transition

Researchers devise new system for turning seawater into hydrogen fuel

Charging cars at home at night is not the way to go, Stanford study finds

Exploring quantum electron highways with laser light

Researchers model accelerator magnets' history using machine learning approach

How a soil microbe could rev up artificial photosynthesis

In a first, researchers image the full structure of trapped excitons

Q&A: From particle beams to cancer treatment – fundamental research that affects everyday life

GISMo lab's innovative plan to make electricity cheaper, greener and more reliable

A new way to shape a material’s atomic structure with ultrafast laser light

First realistic portraits of squishy layer that’s key to battery performance

Researchers capture elusive missing step in the final act of photosynthesis

New SLAC-Stanford Battery Center targets roadblocks to a sustainable energy transition

Researchers devise new system for turning seawater into hydrogen fuel

Charging cars at home at night is not the way to go, Stanford study finds

Exploring quantum electron highways with laser light

Researchers model accelerator magnets' history using machine learning approach

How a soil microbe could rev up artificial photosynthesis

In a first, researchers image the full structure of trapped excitons

Q&A: From particle beams to cancer treatment – fundamental research that affects everyday life

GISMo lab's innovative plan to make electricity cheaper, greener and more reliable

A new way to shape a material’s atomic structure with ultrafast laser light

First realistic portraits of squishy layer that’s key to battery performance