LCLS X-rays allowed researchers to connect the molecular dynamics of supercritical carbon dioxide, used in industrial and environmental applications, with its unique properties.

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 study finds.

A SLAC study shows a process called atomic relaxation offers a new way to explore quantum states in these puzzling materials.

SLAC partners with five national labs and eight universities seeking to increase the supply diversity of EV batteries and relieve supply chain concerns.

An associate scientist at SSRL, Richardson studies plant growth to find ways to enhance nutrient uptake in plants, especially in challenging conditions – such as higher temperatures, drought, and intense precipitation events – brought about by climate change.

Descamps was recognized for turning the world’s most powerful X-ray laser into a sophisticated tool for probing extremely hot, dense matter.

The SLAC professor was elected to the American Physical Society in recognition of his research on ultrafast X-ray methods.

An energy systems engineer, Cezar helps bridge advanced energy research and applications.

This research advances our understanding of Earth's deep interior and exoplanets, opening new research avenues in Earth and planetary sciences.

Tanner works on self-assembling nanocrystals, which could be the basis for less expensive, easier to build displays and solar cells.

The Center for Energy Efficient Magnonics (CEEMag) brings together a multidisciplinary group of researchers from SLAC and seven universities

The Aqueous Battery Consortium of Stanford, SLAC, and 13 others seeks to overcome the limitations of a battery using water as its electrolyte.