A recent study investigates the thermal design of silicon carbide (SiC) power modules for motor drives in electric vehicles, ...

A recent report has claimed that silicon anodes are ahead in the race to commercialize next-generation battery technologies ...

Silicon anodes appear to be leading the way in the race to commercialize next-generation battery technologies for electric ...

After announcing the world’s first 300-millimeter gallium nitride (GaN) power wafer and opening the world’s largest 200-millimeter silicon carbide (SiC) power fab in Kulim, Malaysia, Infineon ...

Infineon has unveiled the world’s thinnest silicon power wafers, with a thickness of 20 micrometers and a diameter of 300 millimeters. The company said the newly produced wafers are half as thick as ...

Korean researchers have used thermal and wet gravity separation (WGS) to separate EVA from reclaimed silicon powder in end-of-life PV modules with “minimal” chemical usage. The proposed ...

The buzz around silicon-based anodes, which promise improved power and faster charging capabilities for EVs, has been growing in recent months – just as the hype around solid-state batteries ...

By replacing the graphite electrode with silicon nanowires, Amprius achieves higher power density and faster charging for its ...

During the M1 and M2 generations, High Power Mode was only available on the 16-inch MacBook Pro. Last year, Apple expanded ...

Researchers have come up with a way to turn silicon into a direct bandgap semiconductor, opening the door to the manufacture of ultrathin silicon solar cells. By creating a new way for light and ...

ProLogium Technology unveiled its latest breakthrough in power cell developments with its "world's first" silicon anode electric vehicle battery which touted its fast-charging capabilities that ...

This part will focus on the future of traction: high-power silicon carbide modules, their key features, and the multiple system benefits they enable. Silicon carbide power modules and ...