In a major advance for quantum technology, researchers have discovered a surprisingly simple method to preserve atomic spin ...

Researchers have discovered a simple yet powerful way to protect atoms from losing information—a key challenge in developing reliable quantum technologies.

Researchers have discovered a simple yet powerful way to protect atoms from losing information—a key challenge in developing reliable quantum ...

Researchers have discovered a simple yet powerful way to protect atoms from losing information—a key challenge in developing reliable quantum technologies. By shining a single, carefully tuned laser ...

Our results show the crucial role of the competition between the interlayer van der Waals interaction and the alkali metal−carbon bond formation for the initial stages of intercalation of large alkali ...

Sheets of bismuth, gallium, indium, tin and lead can now be made just a few atoms thick by crushing them at a high temperature and pressure between two sapphires ...

This liquid metal is moving spontaneously. Researchers call it serpentine locomotion. It starts with the reaction of gallium in the metal with copper ions in the solution. This reaction creates a ...

Scientists demonstrate how atomic size differences control metal catalyst structure at nanoscale, achieving major improvements in fuel cell efficiency and chemical processes.

Aromatic rings consisting solely of metal atoms were, however, heretofore unknown. A research team recently succeeded in isolating such a metal ring and describing it in full.

A method for introducing dense alkali metals in between graphene layers has been devised by the researchers. They have successfully observed the arrangement structure of alkali metal atoms between the ...

The team developed a technique to insert dense alkali metals between graphene layers. Utilizing a high-performance low-voltage (60 kV) electron microscope, they have successfully observed the ...