A new method detects residual contaminants in ultra-pure helium gas, critical to nuclear physics experiments.
New results confirm the rate of Higgs boson production, matching our understanding of how the universe works.
New searches for sterile neutrinos, hypothetical particles that do not directly “talk to” any particles in the Standard Model, significantly narrow the remaining regions where these particles may be hiding.
Self-healing diamond-like carbon coating could revolutionize lubrication.
Electron beam controllably builds micro- and nanoscale structures, enabling new three-dimensional materials.
Unique magnetic coupling found in vertically aligned nanocomposite films shrink devices and let them withstand higher temperatures.
Using DNA linkers to form cages for nanoparticles redefines the rules for assembling nanoparticles
On the path to ultra-stable, low-cost, earth-abundant zinc-manganese oxide rechargeable batteries for the electric grid.
A material with unprecedented control of magnetic states may have implications for new technologies.
Researchers designed an extremely efficient catalytic system to remove carbon monoxide.
Evidence for a new kind of water molecule, trapped within nanotunnels inside an emerald.
Small platinum particles prove to be more catalytically active than single platinum atoms, a vital insight for designing more efficient catalysts.
