Researchers succeed in the direct bonding of diamond and gallium nitride (GaN) at room temperature and demonstrate that the bond can withstand heat treatments of 1,000℃, making it ideal for the ...

Engineers from Stanford University are claiming to have broken new ground with the first post-process diamond integration of ...

The GaN Diamond Semiconductor Substrates market is set for growth, fueled by advances in power electronics and the demand for better heat management.

The integration of a 3C-SiC layer between GaN and diamond significantly reduces thermal resistance at the interface and improves heat dissipation, allowing for better performance. Researchers at ...

Garena has released new redeem codes for July 13. Free Fire Max players now have a great opportunity to obtain many gaming ...

Compared to other advanced semiconductors like SiC and GaN, diamond semiconductors provide superior power conversion efficiency and improved thermal management for next-generation technologies ...

A look inside the diamond hub of Ramat Gan, Israel, on the outskirts of Tel Aviv, one of the major centers for the manufacturing and trade of diamonds, and home to the world's largest diamond ...

Wondering what a GaN charger is? Learn how it works, why it’s faster and smaller, and how to tell if your charger uses GaN technology.

Researchers have fabricated a gallium nitride (GaN) transistor using diamond, which of all natural materials has the highest thermal conductivity on earth, as a substrate, and they succeeded in ...

A new technical paper titled “Thermal Boundary Resistance Reduction by Interfacial Nanopatterning for GaN-on-Diamond Electronics Applications” was published by researchers at University of Bristol, ...

Diamond-based power semiconductors are likely to hit the market as early as 2030 thanks to new development achievements in Japan in the past two years, although it is believed that diamond as the ...