AI-driven material development and new additive manufacturing technology are accelerating new aluminum alloy, battery, and material processing innovations.

Researchers developed a method that gradually adds and removes atoms in simulations, enabling realistic modeling of crystal defects that affect material strength.

Most materials, especially metals and ceramics, are crystals. Their atoms are arranged in three-dimensional lattices that repeat the same exact pattern, over and over again. But there's a well-known ...

SiC and GaN are clearly making an impact in power RF and power electronics markets, but there remains the persistent challenge of crystal quality, reliability and yield, particularly for very high ...

From quartz sand to silicon wafers, the manufacturing process is critical for achieving the purity and quality needed for advanced semiconductor applications.

Chinese scientists create pure-phase hexagonal diamond, a rare carbon crystal that could rival traditional diamonds in strength.

After decades of chasing after a rare hexagonal diamond, a Chinese team says their iteration of the elusive material is the ...

A research team has developed a technology to precisely control the concentration of anion defects in eco-friendly quantum dots through joint research. Through this technology, the research team ...

United Semiconductors has made a payload reservation agreement with Starlab Space to transition its semiconductor crystal growth technology from demonstration to commercial-scale production of ...

Tiny crystal “seeds” could solve a hidden flaw in perovskite solar cells—unlocking high efficiency at larger scales.

Future devices will continue to probe the frontier of the very small, and at scales where functionality depends on mere atoms ...

Defect-filled lead-halide perovskites rival silicon solar cells because domain walls inside the material separate and guide charges. Researchers visualized these charge-transport networks using a ...