A tiny circuit, printed from ink made of atom-thin crystals, just fired electrical pulses that a living brain cell recognized ...

A tiny stack of printed nanomaterials, thinner than a human hair and flexible enough to bend with living tissue, just did ...

Quantum technologies, devices that perform specific functions leveraging quantum mechanical effects, could soon outperform ...

A collaboration between electrical and chemical engineers at Newcastle University is responsible for a reversible glue that can change how we recycle electronic waste. The team has already ...

Researchers designed a small, low-powered implant that fits inside the sphenoid sinus that can create electrical signals strong enough to affect brain cells.

Two U of A students in the Department of Electrical Engineering and Computer Science, Abhinav Komanduri and Aidan Donoho, were awarded National Science Foundation Graduate Research Fellowships, ...

Have you ever wondered if the simple building blocks of life could one day power our wearable electronics? Glycine, the ...

Paulson School of Engineering and Applied Sciences (SEAS) have demonstrated, for the first time, a single quantum of ...

Researchers at Sandia National Laboratories and Auburn University have developed a new method to more accurately detect ...

A newly developed quantum sensor has measured unimaginably small amounts of energy with record-breaking precision.

The technology could support advances in high-speed communication systems, sensing tools, biological materials, and medical technologies.

Here’s a sampler of the new developments editors James Morra and Lee Goldberg got to see during their visit to APEC 2026.