Tiny changes at the atomic scale can determine the future of clean energy. In a new study, Tohoku University researchers have revealed how the precise coordination environment surrounding a single ...

Phonons are the collective vibrations that move through a solid. They can be thought of as waves traveling across the atomic ...

Tiny changes at the atomic scale can determine the future of clean energy. In a new study, Tohoku University researchers have revealed how the precise ...

Atoms measure roughly 0.1 nanometers across, a scale so small that scientists spent more than six decades developing ...

Engineers can now build spacecraft electronics that are intrinsically radiation-tolerant, significantly reducing launch weight.

A research team led by Professor Su-Il In of the Department of Energy Science and Engineering at DGIST has uncovered the ...

Scientists saw a quark plowing through primordial plasma for the first time, offering a rare look at the first moments after ...

AMES, Iowa – A tiny, solid sample of a drug, complete with active and inactive ingredients, spun at 50,000 revolutions per ...

A mathematical equivalent of a microscope with variable resolution has shed light on why some atoms are exceptionally stable, ...

Niels Bohr, a pioneer of quantum theory, believed that every significant challenge contains its own solution, compelling us to adapt our thinking. This philosophy, crucial to scientific breakthroughs ...

Physicists have now managed to track the passage of time inside a quantum event without using anything that looks like a traditional clock. Instead of ticking gears or oscillating crystals, they read ...

Why the world’s best clean-energy catalysts still fail — and how to fix them? Iridium oxide is one of the best catalysts for making hydrogen fuel, but it’s rare and slowly breaks down inside ...