EPC’s first seventh-generation eGaN® device enters mass production, delivering up to 3× better performance than silicon ...

Researchers create a nanoscale light switch operating 10,000 times faster than electronic transistors, opening possibilities for ultrafast computing, optical ...

A joint research team led by Professors Donghee Son and Jin-Hong Park at SKKU has developed a stretchable, self-healing, and reconfigurable electronic circuit platform that can autonomously recover ...

Efficient Power Conversion (EPC) has entered a licensing agreement with Renesas Electronics for EPC’s low-voltage enhancement-mode gallium nitride (eGaN) technology. Renesas will establish internal ...

GaN-based electronics are known for their ability to reduce energy losses and shrink the size of power converters and related hardware to nearly one-third of current designs.

ransistors control the flow of electricity, acting as tiny switches and amplifiers inside nearly every electronic device. This video breaks down how they work and why they’re considered one of the ...

New chipmaking systems boost the energy-efficient performance of Gate-All-Around transistors and wiring at 2nm and beyondViva pure radical treatment smoothens GAA silicon nanosheets with atomic-level ...

Researchers at the Indian Institute of Science (IISc) have uncovered fundamental insights into designing gallium nitride (GaN ...

Cross Section of Gate-All-Around Transistor and Wiring Applied Materials introduced three new chipmaking systems that boost ...

Gallium nitride, or GaN, is seen as a successor to silicon in high-power electronics because it can reduce energy losses ...