Energy Sciences Directorate
Combined with the lab’s LCLS X-ray laser, it’ll provide unprecedented atomic views of some of nature’s speediest processes.
A new twist on cryo-EM imaging reveals what’s going on inside MOFs, highly porous nanoparticles with big potential for storing fuel, separating gases and removing carbon dioxide from the atmosphere.
Experiments at SLAC’s X-ray laser reveal in atomic detail how two distinct liquid phases in these materials enable fast switching between glassy and crystalline states that represent 0s and 1s in memory devices.
A laser technique lets researchers see how potentially dangerous growths form in batteries.
Both are professors at Stanford and SLAC, where Martinez is an investigator with the Stanford PULSE Institute.
First direct look at how atoms move when a ring-shaped molecule breaks apart could boost our understanding of fundamental processes of life.
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.
X-ray laser snapshots give scientists a new tool for probing trillionths-of-a-second atomic motions in 2-D materials
The newly launched Quantum Fundamentals, ARchitecture and Machines initiative will build upon existing strengths in theoretical and experimental quantum science and engineering at Stanford and SLAC.