If quantum computing is going to become an every-day reality, we need better superconducting thin films, the hardware that ...

Engineers at the University of Houston have created a breakthrough solution: a newly engineered ultra-thin film that could ...

AI systems use more power as chips heat up. A thin-film material cuts heat at the source and helps hardware run with less energy during operation.

Addressing the staggering power and energy demands of artificial intelligence, engineers at the University of Houston have ...

Artificial intelligence is one of the driving forces in today’s semiconductor industry, with more traditional market drivers like high performance compute and smart phones continuing to play important ...

Researchers at Pacific Northwest National Laboratory (PNNL) have developed a machine learning (ML) system that can detect subtle changes in thin film growth data in real time - faster than human ...

Thin films can be made from a variety of materials, including metals (e.g., gold, silver), oxides (e.g., silicon dioxide, titanium dioxide), and semiconductors (e.g ...

Transparent conductive thin films are crucial in various semiconductor devices, including solar cells, liquid crystal displays (LCDs), light-emitting diodes (LEDs), and sensors. Indium tin oxide (ITO) ...

Semiconductor devices are becoming thinner and more complex, making thin deposited films even harder to measure and control. With 3nm node devices in production and 2nm nodes ramping toward ...

High conversion efficiency, earth-abundant material composition, and lower cost of manufacturing make perovskites a potential game changer for the solar industry. But what is the best path forward for ...