Gallium oxide presents a particular challenge across synthesis, characterisation, and theory due to its inherent disorder and resulting complex structure – electronic structure relationship. It has ...

Gallium oxide (Ga₂O₃) is a semiconductor material that could make electronic devices much more energy-efficient than current silicon-based technology. Electronic diodes require two types of ...

The US, China and Japan are working on research and development in gallium oxide crystal growth and productionizing gallium oxide chips. The Gallium oxide chips can have a voltage resistance value 3 ...

Gallium oxide (Ga2O3) thin films have emerged as a material of significant interest owing to their ultrawide bandgap and robust chemical and thermal stability. These films offer promising avenues for ...

We've all seen the headlines: Data centers are projected to consume 6% of U.S. energy by 2026—with that number climbing as high as 32% in other places, such as Ireland. If things don't change, this ...

“Gallium Oxide has undergone rapid technological maturation over the last decade, pushing it to the forefront of ultra-wide band gap semiconductor technologies. Maximizing the potential for a new ...

Researchers at Nagoya University fabricated functional gallium oxide pn diodes that can carry twice as much electrical current as previous gallium oxide diodes and waste less energy than silicon-based ...

Exposure to radiation and extreme temperature swings are two of the many hazards that space probes face. Now, KAUST researchers have created the world's first flash memory device made of gallium oxide ...