Research conducted at the atomic scale could help explain how electric currents move efficiently through hybrid perovskites, promising materials for solar cells.

Streamlining their journey through the electrolyte could help lithium-ion batteries charge faster.

Experiments with 'molecular anvils' mark an important advance for mechanochemistry, which has the potential to make chemistry greener and more precise.

The goal of these X-ray studies is to find ways to improve manufacturing of specialized metal parts for the aerospace, aircraft, automotive and healthcare industries.

Combining X-ray and electron data from two cutting-edge SLAC instruments, researchers make the first observation of the rapid atomic response of iron-platinum nanoparticles to light. The results could help develop ways to manipulate and control future magnetic data storage devices.

They created a comprehensive picture of how the same chemical processes that give these cathodes their high capacity are also linked to changes in atomic structure that sap performance.

These stripes of electron spin and charge are exciting because of their possible link to a phenomenon that could transform society by making electrical transmission nearly 100 percent efficient.

In experiments with the lab’s ultrafast "electron camera," laser light hitting a material is almost completely converted into nuclear vibrations, which are key to switching a material’s properties on and off for future electronics and other applications.

Clothing made from a reversible fabric, developed in part by SIMES researchers, could warm or cool wearers and keep them comfortable, bringing down buildings’ energy costs.

Effort to improve the next generation of gravitational wave detectors includes atomic studies of new and better coatings for LIGO’s mirrors at SSRL.

Remarkable cryo-EM images that reveal details down to the individual atom will yield new insights into why high-energy batteries fail.

He is recognized for his numerous contributions to the advancement of accelerator physics, community service and education.