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

When something dies, a telltale radioactive signal ticks like a natural clock. Discovering it helped us solve all sorts of ...

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

A team led by Berkeley and GWU working with the U of A's Center for Manipulation of Atomic Ordering for Manufacturing Semiconductors confirmed that atoms in semiconductors arrange themselves in ...

Nicholas Spada is one of the only scientists in the world using a nuclear x-ray process to study deadly nanoparticles in ...

Metal-organic frameworks can store huge amounts of gas in a tiny space—enabling advances that could help humans fight climate ...

Scientists have discovered that the far side of the Moon is colder deep within its interior than the side that always faces ...

Astronomers were astonished to find an abundance of phosphine, a molecule produced by microbes on Earth, in the atmosphere of ...

Scientists want to find out, and that research could reveal properties and use cases we can’t even dream of today—but we can only make a few atoms at a time, and they last for just microseconds before ...

A new trick for modeling molecules with quantum accuracy takes a step toward revealing the equation at the center of a popular simulation approach, which is used in fundamental chemistry and materials ...

A new trick for modeling molecules with quantum accuracy takes a step toward revealing the equation at the center of a popular simulation approach, which is used in fundamental chemistry and materials ...