You have heard over the last week that salt is not effective at melting snow below 15 degrees, but scientifically, why is ...

Researchers have uncovered how atoms subtly rearrange themselves for up to a trillionth of a second before releasing ...

Tests in a gate-defined loop on graphene tracked a fractional charge circling back with a steady interference beat, as ...

An international collaboration led by the Fritz Haber Institute (FHI) has successfully mapped Electron-Transfer-Mediated ...

Graphene has very low electrical resistance, allowing electrons to flow through the electrode with minimal effort. This high conductivity allows super capacitors to charge and release power almost ...

Researchers at the California NanoSystems Institute at UCLA published a step-by-step framework for determining the ...

Together with an international team, researchers from the Molecular Physics Department at the Fritz Haber Institute have ...

For years, scientists noticed that magnetic fields could improve steel, but no one knew exactly why. New simulations reveal that magnetism changes how iron atoms behave, making it harder for carbon ...

Researchers have demonstrated that quantum entanglement can link atoms across space to improve measurement accuracy. By ...

By stacking graphene with other ultrathin layers, researchers created a memory effect that stores data electrically with very ...

“Looking at things at a very, very fast rate allows us to observe weird and wonderful phenomena,” Salamat says, calling the ...