A better understanding of how these receptors work could enable scientists to design better therapeutics for sleep disorders, cancer and Type 2 diabetes.

Scientists precisely control where single-atom catalysts sit on their support structures, and show how changing their position affects their reactivity.

A new method could be used to look at chemical reactions that other techniques can’t catch, for instance in catalysis, photovoltaics, peptide and combustion research.

More than 300 gathered for a day-long symposium to celebrate the history and future of the pioneering X-ray laser.

In SLAC’s accelerator control room, shift lead Ben Ripman and a team of operators fine-tune X-ray beams for science experiments around the clock.

In the decade since LCLS produced its first light, it has pushed boundaries in countless areas of discovery.

He helped lay the groundwork for SLAC’s LCLS X-ray laser and for the institute, which was founded to explore the science LCLS would enable.

SLAC researchers say their new method could make it easier to study interactions of ultrabright X-rays with matter

Combination of research methods reveals causes of capacity fading, giving scientists better insight to design advanced batteries for electric vehicles

Researchers used a unique approach to learn more about what happens to silicon under intense pressure.

X-ray laser snapshots give scientists a new tool for probing trillionths-of-a-second atomic motions in 2-D materials

SLAC Director Chi-Chang Kao spoke to the Stanford University Faculty Senate at its Feb. 21 meeting.