Perovskite solar cells are affordable and work well but don’t last. A method fixes this problem without common trade-offs.

The silicon-integrated hole transport layer, crafted using microlithography, promises to power the next generation of VR, AR, and wearable devices with sharper images and greater energy efficiency.

What if your devices could connect and communicate without extra effort? Discover how ready-to-use s/w is making IoT work with less complexity ...

A high-performance stereo audio codec designed for real-time wireless streaming and Active Noise Cancellation (ANC), it ensures seamless audio-video synchronization for next-gen gaming, wearables, and ...

Can robots move like athletes? A training model helps them replicate sports moves, but the results show both progress and unexpected challenges.

A series of Bluetooth modules lowers power use and increases processing speed, adding stronger security. See more!

You would work on creating regression plans for code as well as functional coverage closure. You would perform pre-silicon validation activities such as XPROP simulations and GLS.

Discover how a new method unlocks the secrets of magic-angle graphene's superconductivity, paving the way for advances in quantum computing!

What if a wheelchair could adapt to your movements, learning when to take control and when to follow your lead? Read more!

How do you fit more into less space? A new chip inductor, 75% smaller than its predecessor, is changing electronics. Find out what’s next.

Every software engineer, every creative artist, everybody who uses computers today as a tool will need an AI supercomputer.” ...

As electric vehicles push the limits of performance, protecting critical systems from voltage spikes becomes more important. Find out more!