Researchers develop a simple method to build stable, atom-thick metal layers using tiny defects in carbon, enabling efficient ...

Scientists at OIST have defied a foundational rule in chemistry by creating a stable 20-electron version of ferrocene—an ...

Atomic-scale detail is now possible with photons, thanks to a cooled-down silver tip and a clever use of plasmonics.

A newly discovered aluminium isotope rapidly self-destructs by ejecting three protons in a rare sequence — shaking up our understanding of atomic decay.

Aluminum atoms sneak into battery cathodes and block metal recovery during lithium-ion recycling, the researchers found.

Researchers have succeeded in creating a "time crystal" in the laboratory that maintains autonomous rhythms at room ...

Penn State researchers have uncovered a surprising twist in a foundational chemical reaction known as oxidative addition.

Researchers converted layered MXenes into chemically bonded solids using metal intercalation, boosting thermal stability and ...

Proteins are life's molecular workhorses, doing everything from turning sunlight into food to fighting viruses. They are ...

A new gold-coating method smooths out microscopic defects in quantum chips, dramatically reducing signal loss and decoherence ...

Lithium-ion batteries (LIBs) are widely used in consumer electronics, electric vehicles, and renewable energy systems, making ...