The inside of giant planets can reach pressures more than one million times the Earth's atmosphere. As a result of that ...

Nature offers a clue. Across every scale, stability comes not from chance but from structure. Cells rely on four molecular ...

A pulse of light sets the tempo in the material. Atoms in a crystalline sheet just a few atoms thick begin to move—not ...

Researchers’ new method that delivers more control over halide perovskites could transform how solar cells, LEDs and lasers ...

Google's tool for predicting how proteins “fold” turns 5 this year. How is it fitting into biological research—and where is ...

Auroras have been making headlines and spreading across social media lately due to the solar storm. This guide will show you ...

String theory unifies all the forces of nature. Forces that seem very different, such as gravity and electricity, are deeply ...

Researchers are exploring MXenes, 2D materials that could transform air into ammonia for cleaner fertilizers and fuels. Their atomic structures can be tuned to optimize performance, making them ...

He reminded that fusion differs from fission, which splits atoms and creates radioactive waste. “Instead, think of joining ...

Companies from South Korea are among those bidding to help Saudi Arabia build its first large-scale nuclear energy power ...

Settlement risk has shaped central-bank policy since 1974, when the collapse of Bankhaus Herstatt left counterparties exposed ...

A microprotein called adipogenin appears to play a key role in helping fat cells store lipid droplets—a phenomenon that's ...