Record-Breaking Advances in Next-Generation Flow Battery Design
Sugar additive plays a surprise role, boosting flow battery capacity and longevity for this grid energy resilience design. A team of researchers from the Department…
Sugar additive plays a surprise role, boosting flow battery capacity and longevity for this grid energy resilience design. A team of researchers from the Department…
Modeling Healthier Habitats on Managed Lands Oak Ridge National Laboratory researchers developed a model framework that identifies ways to ensure wildlife can safely navigate their…
For the very first time, the SNO+ experiment has demonstrated the capability to detect neutrinos emitted by a nuclear reactor located more than 240 km…
Scientists from the University of Kansas and the U.S. Department of Energy’s Brookhaven National Laboratory have made significant progress towards separating hydrogen and oxygen molecules…
Researchers have achieved a major milestone in quantum computing by extending the lifetime of quantum information beyond the breakeven point using Quantum Error Correction, opening…
New X-ray capability could find wide application in environmental and medical research, as well as the development of batteries and microelectronic devices. Scientists at Argonne…
Tunneling spectroscopy uncovers the clearest proof yet that this exotic superconducting state of matter exists without a magnetic field in an iron-based superconductor. Researchers discovered…
A molecule equipped with hooks that can grip and disable the virus’s pesky protease demonstrates promising potential in combatting infections. Scientists have engineered a molecule…
Through gold nuclei collisions at varying energies, physicists have found that the creation of quark-gluon plasma—an exotic state of matter—halts at the lowest collision energy…
Small Change Brings Big Gain in Performance for Solid-State Battery Electrolyte Scientists at Oak Ridge National Laboratory have doubled the charging speed of solid-state batteries…
Scientists at Brookhaven National Laboratory have used two-dimensional condensed matter physics to understand the quark interactions in neutron stars, simplifying the study of these densest…
Analysis of lightweight nuclei emerging from gold ion collisions offers insight into primordial matter phase changes. Physicists analyzing data from gold ion smashups at the…
Researchers have uncovered new properties in excitons of tungsten disulfide semiconductors, allowing them to track different quantum states with a novel technique. These findings question…
New Insights on the Interplay of Electromagnetism and the Weak Nuclear Force Nuclear theorists have discovered a major effect in neutron decay related to weak…
Particle accelerators, machines that rapidly propel charged particles like protons, atomic nuclei, and electrons to study their collisions, have deepened our understanding of the universe,…
Researchers decode the chemical profile of tantalum surface oxides to enhance understanding of loss mechanisms and to boost the performance of qubits. Whether it’s baking…
Particle accelerators, machines that speed up elementary particles, are pivotal in various sectors, including science, product development, healthcare, and national security. Utilized in over 30,000…
Scientists’ calculations indicate that bottomonium mesons, formed by a bottom quark and its antimatter counterpart, require temperatures above 5.8 trillion degrees Celsius to melt. This…