When metal alloys are processed during manufacturing, the atoms of the combined elements are mixed together at random, ...

A team of UC Riverside engineers has discovered why a key solid-state battery material stays remarkably cool during operation ...

EPFL researchers have developed a method to calibrate electron spectrometers with extreme accuracy by linking microwave, ...

A faster shutter speed captures a more precise snapshot of time, which is helpful for quickly moving objects like rapidly ...

Scientists have long sought to make semiconductors—vital components in computer chips and solar cells—that are also ...

Penn State scientists have devised a new method to predict superconducting materials that could work at higher temperatures.

Virtual screening methods fall broadly into two categories: ligand- and structure-based. Ligand-based virtual screening doesn’t require a target protein structure, Instead, it leverages known active ...

Just published in Nature, the Google team’s findings demonstrate what it says is the first-ever verifiable capability by a ...

Time crystals exhibit perpetual motion-like behavior when separated from external energy input, but scientists found a way to ...

TEM is an essential tool for nanomaterials characterization, providing detailed imaging of morphology, particle size, and ...

Researchers from Tokyo Metropolitan University have developed a new atomically layered material which experiences a five order of magnitude resistivity reduction when oxidized, more than a hundred ...

Scientists have successfully made germanium, a key semiconductor used in computer chips and fiber optics, superconducting for ...