Electronics designers are moving away from conventional Si-based power electronics and towards wide-bandgap solutions.

Gallium nitride (GaN) LEDs have enjoyed wide adoption ... from Osaka University evaluated the efficiency of high-purity GaN crystals using nondestructive and non-contact testing.

Gallium nitride (GaN) semiconductors can now be grown ... but also allows for the efficient and high-quality growth of crystals at a lower cost. Scientists can make semiconductors more efficiently ...

AN earlier communication 1 directed attention to the ease with which single crystals of gallium could be produced and to the highly anisotropic properties of the specimens so obtained. The room ...

The development of new blue semiconductor laser devices in Japan is building on an expertise in gallium-nitride semiconductor-based optical devices, used for LEDs. By tweaking the crystal layers ...

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 ...

Snow Lake Resources Ltd., d/b/a Snow Lake Energy (NASDAQ: LITM) ("Snow Lake") is pleased to announce the discovery of ...

As a result, the layer filled the differences such as the lattice constant between a sapphire substrate and a gallium nitride. This attempt led to the creation of a high-quality single crystal of ...

Toyoda Gosei’s (TOKYO:7282) technology to enhance GaN substrates has been verified to improve power device performance. An ...

Savvy power design engineers know how to improve power-converter density and efficiency by incorporating gallium-nitride (GaN) devices into their designs. These devices switch faster than silicon ...