New studies of the “platypus of materials” help explain how their atoms arrange themselves into orderly, but nonrepeating, ...

Hailed as one of the 50 most important women in science, she found ways to study rare radioactive isotopes and advanced the ...

Driven by tech dollars and demand, nuclear fusion might soon be available to power artificial intelligence. To get a sense of ...

When astronauts returned from NASA's final Apollo moon mission in 1972, some of the samples they collected were sealed and ...

Kyoto Fusioneering is developing two next-generation breeder-blanket structural materials. One is a family of vanadium alloys ...

Kearny-based Thea Energy partners with AWS to advance stellarator fusion technology, aiming to bring clean, commercial fusion ...

The researchers analyzed lunar samples that had remained unopened since they were collected by Apollo 17 astronauts in 1972.

A single speck of light—captured inside a lab at Oxford—turned the abstract into the tangible. It didn’t just win a prize; it ...

The appearance of oxygen in Earth's atmosphere was a turning point in the history of our planet, forever transforming the ...

Making electrons flow like a liquid is difficult, but inside graphene researchers forced them to move so fast that they ...

By breaking the rules of atomic order, scientists have created MXenes unlike any seen before. Nine metals now share a single ...

“The mass and the antiparticle nature of neutrinos can be studied by measuring the radioactive beta and double-beta decays of ...