The electronics engineering landscape has experienced significant changes in the past half-decade, driven by technological advancements and global trends and disruptions. Significant limitations faced ...

Electronic devices lose energy as heat due to the movement of electrons. Now, a breakthrough in nanoengineering has produced a new kind of switch that matches the performance of the best traditional ...

All electronic systems work within upper and lower temperature limits, outside of which they may not function as well or even malfunction. This article focuses on how high temperatures affect ...

PFAS, particularly fluoropolymers, are indispensable in manufacturing semiconductors, EV components, medical devices, and renewable energy technologies. Despite ongoing regulatory efforts in the US ...

While we are working on the integration of automation and data exchange in manufacturing in the era of Industry 4.0, extensive research and development has started on Industry 5.0 that aims to achieve ...

In this special 100th episode of Inside Electronics, Electronic Design’s editors discuss what’s in store for the industry this coming year, from processing hardware to advances in wide-bandgap ...

Gallium nitride (GaN) is breaking out in the world of power electronics. GaN stands out for its superior physical properties, including high electron mobility, wide bandgap, and high thermal ...