The SLAC/Stanford researcher is a leading materials scientist and entrepreneur whose research is paving the way for better batteries, cleaner power grids.
A better understanding of how these receptors work could enable scientists to design better therapeutics for sleep disorders, cancer and Type 2 diabetes.
A serendipitous discovery lets researchers spy on this self-assembly process for the first time with SLAC’s X-ray synchrotron. What they learn will help them fine-tune precision materials for electronics, catalysis and more.
In an advance that will help scientists design and engineer proteins, a team including researchers from SLAC and Stanford has found a way to identify how protein molecules flex into specific atomic arrangements required to catalyze chemical reactions essential for...
Scientists used the powerful X-ray laser at the U.S. Department of Energy's SLAC National Accelerator Laboratory to create movies detailing trillionths-of-a-second changes in the arrangement of copper atoms after an extreme shock.
After a decade spent studying some of the most puzzling questions in astrophysics, providing research and learning opportunities to more than 100 graduate students and postdoctoral researchers, publishing thousands of scientific papers and pushing back the boundaries of what's known...
SLAC played host to the regional Science Bowl last weekend, with a record 150 high-school students from 30 teams answering tough science questions in the hope of winning the top prize – a trip to Washington, D.C., to compete in...
SLAC hosted 21 teams at the Department of Energy Regional Bay Area Science Bowl on Feb. 8. The winners from Homestead High School will head to Washington, D.C., for the national competition in April.
The way electrons move within and between molecules, transferring energy as they go, plays an important role in many chemical and biological processes, such as the conversion of sunlight to energy in photosynthesis and solar cells