Electrons in solar materials can be launched across molecules almost as fast as nature allows, thanks to tiny atomic ...

Scientists created half-Möbius molecules, similar to the Möbius strips common in math classes, but half as twisty. It’s a ...

Quote of the day by the woman who changed science, Maria Goeppert Mayer: In 1963, only the second woman in history won the ...

New research shows 2D carbon materials can store electrical states, reshaping how AI chips manage power and lower electricity ...

For the first time, a team of US researchers has used sensors containing highly excited Rydberg atoms to detect signals from ...

Researchers identified a new silicon qubit that emits telecom-band light without fragile hydrogen, potentially enabling ...

Quantum technology promises to revolutionize computing, communication, and sensing by using the strange behavior of particles ...

Quantum technologies are anticipated to transform computing, communication and sensing by harnessing the unusual behavior of matter at the atomic ...

Atom-level understanding of how the surface electronic properties of a magnetic semimetal can be tuned could guide its use in ...

Using atomic-scale defects in diamond, researchers in China have gained unprecedented insights into the complex chemical ...

A pair of identical particles swapping places sounds like a small move. In quantum physics, it is a defining one.

Respiratory supercomplex formation relieves molecular strain of mitochondrial membranes and reshapes global protein motions, linking membrane reorganization to respiratory function.