The Johns Hopkins-created maps provide higher resolution and better coverage of gray matter than previously published maps, ...

An at-home brain-computer interface improves upper limb motor function in patients with chronic stroke, suggesting a new avenue for long-term neurorehabilitation.

Discover how Elon Musk's Neuralink brain chip works, its groundbreaking applications for paralysis, and the future of mind-controlled technology.

MIT researchers have created subcellular ‘circulatronic’ brain implants that can be administered via injection and self-implant to target a variety of ailments directly.

Second implantation at Harborview Medical Center in Seattle marks continued progress in the FDA-approved study informed by ...

A China-based team has reportedly completed the “world’s first in-orbit verification” of a wireless implantable brain-computer interface.

A research team from Northwestern Polytechnical University (NPU) in Xi'an, Northwest China's Shaanxi Province, has completed the world's first in-orbit verification of a wireless implantable ...

Biohacking evolved from wearables to tech implants. As grinders embed chips and magnets in their bodies, we take a look at ...

Ultra-thin crystalline silicon is an exciting material for next-generation bioelectronics, transforming rigid silicon into flexible nanomembranes while preserving superior electrical performance and ...

Discover how Noland Arbaugh, the first human with a Neuralink chip, controls computers with his thoughts. Learn about the ...

Donoghue was awarded the prize, considered among the most prestigious honors in engineering, for pioneering work in developing brain-computer interfaces, which enable the restoration of voluntary ...