Power electronics and semiconductor devices lie at the heart of modern energy conversion and control systems. Recent advances have focused on utilising wide‐bandgap materials such as silicon carbide ...

Emergent widegap semiconductors – such as gallium oxide – are explored for applications in power electronics, including the harsh operational environments associated with electric-vehicles and with ...

A study revealed that a simple thermal reaction of gallium nitride with metallic magnesium results in the formation of a distinctive superlattice structure. This represents the first time researchers ...

Power devices continue to evolve rapidly as SiC and GaN technologies become more highly integrated, easy to use, and cost-effective. Meanwhile, steady improvements in MOSFET structures and processes ...

As global energy demand surges—driven by AI-hungry data centers, advanced manufacturing, and electrified ...

Single event burnout (SEB) represents a critical failure mode in power semiconductor devices, whereby the impact of a single energetic particle – often encountered in space or high-radiation ...

Smarter Devices Spur Savvy Supply Design OVER THE YEARS, ADVANCES IN POWER semiconductors, especially discrete power transistors and power control ICs, have played a crucial role in the development of ...

11.9 Specialty and Emerging Companies (8 company profiles) ...

Wide bandgap semiconductors have taken both power electronics and high frequency circuits by storm, replacing so many applications that were previously dominated by silicon-based devices, e.g., LDMOS ...

At the Applied Power Electronics Conference & Exposition (APEC 2025), celebrating its 40th year, over 300 exhibitors showcased their latest component advances for system power designers across a wide ...

CAMBRIDGE, England--(BUSINESS WIRE)--Cambridge GaN Devices (CGD), a leading innovator in gallium nitride (GaN) power devices, has successfully closed a $32 million Series C funding round. The ...

A printed electronic circuit on a clear, flexible substrate draped over a human hair. This flexible transistor device is made entirely of biodegradable materials, including a semiconducting polymer ...