Understanding how methanogenic bacteria can “bio-mine” minerals advances biotechnology and helps scientists understand the Earth’s geological history.
Using two methods is better than one when it comes to observing how solar cells form and improving cell properties.
Scientists map atomic-level changes in the components of a running internal combustion engine using neutron techniques.
A new approach for measuring nuclear recoils in superconducting quantum sensors enables the first limits on sterile neutrinos from beryllium-7 decay.
New measurements provide insights for geochronology and reactor design.
Harnessing the intensity of a terahertz laser pulse brings the resolution of electron scattering closer to the scale of electron and proton motion.
Oil-free, nanoscale solid lubricant creates ultra-slippery layer between sliding surfaces in machinery
Built with detector technologies used in nuclear physics experiments, the system monitors radiation treatments in hard-to-reach areas.
New self-supporting composite metal material doubles the volumetric energy and achieves fast charging rates in batteries.
Production of actinium-227 ramps up for use in a drug to fight prostate cancer that has spread to bone.
Atom probe tomography reveals key explanations for stable performance over a cutting-edge diesel-exhaust catalyst’s lifetime.
Creating nanotextured glass surfaces completely eliminates reflections of all colors of light, making the glass nearly invisible.
