For nearly a century, scientists have understood how crystalline materials—such as metals and semiconductors—bend without ...

Multipurpose structures could find use in targeted drug delivery, catalysis, microelectronics and tissue engineering ...

Researchers discovered that when atoms interact and remain entangled with light, they emit stronger, more coordinated bursts ...

Thorium-229's unique nuclear transitions may lead to a revolutionary nuclear clock, with enhanced stability and sensitivity ...

A research team affiliated with UNIST has made a significant breakthrough in overcoming one of the most persistent challenges hindering the commercialization of two-dimensional (2D) semiconductor ...

In the early 20th century, the development of quantum mechanics fundamentally changed our understanding of atomic and ...

UT researchers have made rare measurements of exotic nuclear decay that reshape how scientists think heavy elements form in extreme cosmic events. You can’t have gold without the decay of an atomic ...

In spaces smaller than a wavelength of light, electric currents jump from point to point and magnetic fields corkscrew through atomic lattices in ways that defy intuition. Scientists have only ever ...

A scientist analyzing Fermi telescope data found a strange glow around the Milky Way that looks like it could be coming from ...

From polarized elections to market swings driven by social contagion, we continually see that emotional forces move systems ...

For decades, quantum computing has been heralded as a technology of the future, promising to solve problems far beyond the ...

Abstract The demand for low contact resistance in two-dimensional (2D) nanoelectronics has positioned semimetals as ideal contact materials, owing to ...