In a game-changer for drug testing & precision medicine, a 3D flexible electrode array wraps around cardiac organoids, capturing electrical signals in three dimensions.

The implant developed by Professor John Rogers could restore lost senses and provide sensory feedback for prosthetic limbs.

In a new leap for neurobiology and bioelectronics, Northwestern University scientists have developed a wireless device that ...

On 21 November 2025, Kaopiz, a leading Vietnam-based technology company with strong operations in Japan and APAC, ...

Vacuum conditions, radiation, and electrical interference can compromise performance, requiring material and design ...

Iron-on circuit; thermal drawing of e-fibers; recyclable, self-healing circuits; 'living metal' bioelectronics.

Lenovo is building a Legion rollable gaming laptop with a horizontal ultrawide 21:9 OLED display and Intel Core Ultra chip, ...

Researchers have built a fully implantable device that sends light-based messages directly to the brain. Mice learned to ...

A landmark commitment from the O’Donnell Foundation will launch a first-of-its-kind interdisciplinary energy program at SMU ...

“Although nature does not necessarily provide the optimal form, it still outperforms many artificial systems and offers ...

One Arizona school district's career and technical education program exposes student to the semiconductor industry's ...

Latest release enables faster, more confident design decisions at scale with accelerated simulation, AI-powered, real-time ...