OxStu explores how the structure of glass makes it ubiquitous in everyday life and why we are still exploring its use.

The precise measurement of states in atomic and molecular systems can help to validate fundamental physics theories and their ...

Researchers at TUM have developed a new material for solid-state batteries. Solid-state batteries are seen as a game-changer ...

Tiny strains in a crystal can cause electrons to behave in a surprising way that closely resembles a highly sought-after ...

Brookhaven National Laboratory and Stony Brook University (SBU) used artificial intelligence (AI) to help them understand how ...

Crystals don't always grow the way we thought. A team of researchers has just discovered a new type of crystal that shatters ...

Ferromagnetic semiconductors, which combine semiconductor and magnetic properties, are key to developing spin-based devices. Previously studied materials, such as (Ga,Mn)As, have Curie temperatures ...

Once pitched as a budget EV, the EX30 instead arrives as a 422-hp rocket that clears 60 mph in 3.3 seconds. About two years ...

They discover that the topological properties of quasicrystals come from periodic patterns in 4D, revolutionizing optics and ...

The cost of SiC substrates needs to come down. But are we going to hamper these efforts by imposing limits on the thickness ...

A breakthrough in solar technology has pushed the efficiency of perovskite solar cells to an impressive 26.3%, thanks to an ...

The model is based on the Monte Carlo method. Ion behavior is determined by directly referring to three-dimensional crystal structure data. Both channeling and dechanneling can be well simulated by ...