A better understanding of this process could inform the next generation of artificial photosynthetic systems that produce clean and renewable energy.

New observations of the atomic structure of iron reveal it undergoes "twinning" under extreme stress and pressure.

The results could lead to a better understanding of reactions with vital roles in chemistry and biology.

The early career award honors Sood for his research and leadership using the LCLS user facility at SLAC National Accelerator Laboratory.

Spawned by the spins of electrons in magnetic materials, these tiny whirlpools behave like independent particles and could be the future of computing. Experiments with SLAC’s X-ray laser are revealing their secrets.

High-power lasers will work in concert with the lab’s X-ray laser to dramatically improve our understanding of matter in extreme conditions.

This is the first direct observation of a hydroxyl-hydronium complex – important for a wide range of chemical and biological processes from the tails of comets to cancer treatment.

Much like crystallizing rock candy from sugar syrup, the new method grows 2D perovskites precisely layered with other 2D materials to produce crystals with a wide range of electronic properties.

The chemically controlled chains reveal an ultrastrong attraction between electrons that may help cuprate superconductors carry electrical current with no loss at relatively high temperatures.

Three physicists talk about how they got started, their work at SLAC and what they would say to others considering a career in STEM.

Anchoring individual iridium atoms on the surface of a catalytic particle boosted its performance in carrying out a reaction that’s been a bottleneck for sustainable energy production.

The work sheds light on the web of hydrogen bonds that gives water its strange properties, which play a vital role in many chemical and biological processes.