SLAC topics

Materials science RSS feed

 SLAC develops materials to improve the performance of batteries, fuel cells and other energy technologies and set the stage for technologies of the future.

Related link:
Energy sciences

In materials hit with light, individual atoms and vibrations take disorderly paths.

Press Release

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

Electrode structure for lithium ion battery.
News Feature

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

Illustration of spin and charge stripes modeled by computer
News Feature

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...

UED Molybdenum Diselenide
News Feature

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

News Feature

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

Press Release

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

A lithium metal dendrite, taken with cryogenic electron microscopy or cryo-EM
News Feature

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

Alexander Chao
News Feature

This novel method could shrink the equipment needed to make laser pulses billionths of a billionth of a second long for studying ultra-speedy electron...

In this illustration, a near-infrared laser beam hits a piece of ordinary glass and triggers a process called high harmonic generation
News Feature

The early career award from SLAC’s X-ray laser recognizes Kjaer’s work in ultrafast X-ray science.

photo of Kasper Kjaer in Panofsky Auditorium
News Feature

Kumar’s work, carried out in part at SSRL, explains how memristors work – a new class of electronic devices with applications in next-generation information...

photo of Suhas Kumar at SSRL
News Feature

Tripling the energy and refining the shape of optical laser pulses at LCLS’s Matter in Extreme Conditions instrument allows researchers to recreate higher-pressure conditions...

Laser engineers with the upgraded Matter in Extreme Conditions optical laser
Press Release

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...

Illustration of nanocrystals forming into superlattices at SLAC's SSRL