SLAC and Stanford partner with two Illinois universities to create the Center for Quantum Sensing and Quantum Materials, which aims to unravel mysteries associated with exotic superconductors, topological insulators and strange metals.

Adding polymers and fireproofing to a battery’s current collectors makes it lighter, safer and about 20% more efficient.

Daniel Ratner, head of SLAC’s machine learning initiative, explains the lab’s unique opportunities to advance scientific discovery through machine learning.

For decades Z-X Shen has ridden a wave of curiosity about the strange behavior of electrons that can levitate magnets.

Theory suggests that quantum critical points may be analogous to black holes as places where all sorts of strange phenomena can exist in a quantum material. Now scientists are trying to pin down where this particular quantum critical point might...

They discovered the messy environment of a chemical reaction can actually change the shape of a catalytic nanoparticle in a way that makes it more active.

The advance opens a path toward a new generation of logic and memory devices that could be 10,000 times faster than today's.

Turning a brittle oxide into a flexible membrane and stretching it on a tiny apparatus flipped it from a conducting to an insulating state and changed its magnetic properties. The technique can be used to study and design a broad...

Hitting molecules with two photons of light at once set off unexpected processes that were captured in detail with SLAC’s X-ray laser. Scientists say this new approach should work for bigger and more complicated molecules, too, allowing new insights into...

With the right amount of pressure and surprisingly little heat, a substance found in fossil fuels can transform into pure diamond.

These inexpensive photosensitizers could make solar power and chemical manufacturing more efficient. Experiments at SLAC offer insight into how they work.