Precise electrons damage chips from the inside and reveal a quantum flaw that could revolutionize modern electronics.

The bigger concern is that Iran could enrich the 60 per cent HEU to 90 per cent in a week. Uranium enriched up to 93 per cent ...

With almost perfect magnetic cancellation, this material avoids stray fields that limit device scaling in modern electronic ...

A new study demonstrates a pre-enrichment and ATTA method to measure isotopes at previously inaccessible abundance levels.

Calculations of the molecule’s magnetic properties show that electrons circulate continuously around the bismuth ring—a key ...

Dolomite has been notoriously impossible to replicate in a lab because of recurring defects in mineral layers—but not anymore ...

Measurements of this interstellar comet’s molecular makeup show an excess of heavy water molecules that is dramatically ...

The detection and study of isotopes, atoms of the same element that have different numbers of neutrons, could expand the ...

Using donor-acceptor chemistry to create ultra-thin nanoribbons, just a few atoms wide, could help to shape new electronic ...

In 2023, IBM unveiled Condor, a quantum chip that passed over the 1,000-qubit mark by reaching 1,121 superconducting qubits, ...

Scientists report a possible new state of matter formed under extreme pressure and heat inside Uranus and Neptune.

Chemical reactions drive life. They ensure that cells obtain energy, proteins perform their functions, and DNA changes under ...