Gallium nitride (GaN) semiconductors can now be grown without ammonia, a toxic chemical that needs a sophisticated detoxifying system before it can be released into the atmosphere. The new ...

The use of gallium nitride for wide applications was so significant that it merited three Japanese scientists being awarded the Nobel Prize for Physics in 2014. Gallium nitride has remarkable ...

A Germany-based global semiconductor leader has developed the the world’s first 300 mm power gallium nitride (GaN) wafer ...

The team will unveil new prototypes in the coming years.” String inverters based on gallium nitride (GaN) semiconductors could represent a valid alternative to devices based on silicon (Si ...

RFHIC specializes in designing and manufacturing gallium nitride (GaN) transistors, which exhibit excellent thermal stability, high efficiency, high power and a compact form factor. Combining ...

gallium nitride, gallium oxide, gallium phosphide, gallium selenide and indium gallium arsenide. They will also apply to six germanium products: germanium dioxide, germanium epitaxial growth ...

Gallium nitride technology enhances power efficiency and performance in devices. As demand for high-tech applications grows, so does the demand for gallium. Primary sources include bauxite ...

The majority of chargers on the market use silicon semiconductors. Gallium nitride (GaN) is an alternative to silicon that offers a lot of benefits: GaN chargers are smaller, more efficient ...

Navitas Semiconductor develops ultraefficient gallium nitride (GaN) semiconductors. The company hopes to help transition the semiconductor industry from silicon chips to GaN for power applications.

Researchers at the University of Michigan have developed a new artificial photosynthesis system that can bind two carbon atoms together into a hydrocarbon. The resulting product is ethylene (chemical ...