Laser-based additive manufacturing produces high-entropy alloys that are stronger and less likely to fracture.
Understanding defects paves the way for longer lifetimes for sodium-ion batteries -- and lower energy storage costs.
Scientists use a common engineering approach to enhance the superconductivity and induce ferroelectricity in the quantum material strontium titanate.
Experiments examine atomic disorder and dynamics that could explain beneficial optical properties.
X-ray imaging shows that selectively etching surface nickel from a nickel-platinum alloy leaves a chemically active platinum coating.
Interfaces made by stacking certain complex oxide materials can tune the quantum interactions between electrons, yielding exotic spin textures.
New optics-on-a-chip device paves the way to helping characterize fast chemical, material, and biological processes.
Paralyzed mice “walk” again after new treatment created with the aid of the Advanced Photon Source.
A material with a disordered rock salt structure could help make batteries safer, faster-charging, and able to store more energy
Scientists discover a high-resolution X-ray fluorescence probe to measure nanostructures in thin films.
Scientists use X-ray-sensitive tags to see protein molecules in cells, opening new doors for studies in health, medicine, and bioscience.
Neutron and X-ray scattering shed light on exotic states that determine the electronic properties of materials.
