MIT physicists have captured the first images of individual atoms freely interacting in space— “free-range” particles never ...

Physicists captured the first images of individual atoms freely interacting in space. The pictures reveal correlations among the 'free-range' particles that until now were predicted but never directly ...

Scientists have just snapped pictures of single atoms as they move around freely, capturing details once hidden from sight.

Until now, atoms have never been imaged interacting freely in space, but a new technique known as non-resolved microscopy has ...

“These techniques allow you to see the overall shape and structure of a cloud of atoms ... The team also imaged a cloud of two types of lithium atoms. Each type of atom is a fermion, that naturally ...

Semiconductors are the fundamental building blocks of almost all modern electronics, powering everything from smartphones and ...

A team partially replaced lithium in a lithium antimonide compound with the metal scandium. This creates specific gaps, so-called vacancies, in the crystal lattice of the conductor material. These ...

To achieve the record conductivity, the team created a novel material composed of lithium, antimony, and scandium.

Researchers from the Technical University of Munich (TUM) and TUMint.Energy Research have made a groundbreaking discovery ...

The approach also provides deeper insights into the structure-property relationships of catalysts, enabling faster and more efficient discovery processes," Li states. DFT-derived parameters have ...