Metal-organic frameworks designed with a topology-guided approach show higher efficiency than commercial benchmarks.
Scientists discover an unexpected source of new materials, with potential for energy applications.
A flowing magnetically responsive liquid seamlessly regulates the shape and properties of solids, letting them perform an array of jobs.
Low-momentum (wimpy) quarks and gluons contribute to proton spin, offering insights into protons’ behavior in all visible matter.
Researchers demonstrated record accelerating cavity performance using a technique that could lead to significant cost savings.
Beam chopper cuts accelerator-generated ion beams under highly demanding conditions.
Particles act in a way that justifies extrapolating simulation results to astrophysical scales.
Researchers use advanced nuclear models to explain 50-year mystery surrounding the process stars use to transform elements.
A new route to make metal beneath a layer of graphite opens potentially new applications in solar cells and quantum computing.
Read more about Getting Metal Under Graphite’s Skin
Discovery of new boron-containing phase opens the door for resilient flexible electronics.
Materials prevent battery failure by inhibiting tree-like growths.
The radii of three proton-rich calcium isotopes are smaller than previously predicted because models didn’t account for two nuclear interactions.
Read more about Why Are These Extremely Light Calcium Isotopes So Small?
