The growing demand for advanced neural interfaces that enable precise brain monitoring and modulation has catalyzed significant research into flexible, biocompatible, and highly conductive materials.

Precision neurostimulation leverages AI and closed-loop feedback, delivering tailored treatments for neurological disorders ...

Restoring lost senses or delivering precise brain signals has required invasive hardware and can’t mimic the brain’s natural, distributed activity patterns. This platform shows the brain can learn to ...

A tiny change at the boundary between two oxide layers may point to a less power-hungry future for artificial intelligence. Researchers led by the University of Cambridge have built a nanoelectronic ...

Fiber-optic technology revolutionized the telecommunications industry and may soon do the same for brain research. A group of researchers from Washington University in St. Louis in both the McKelvey ...

Sleep is a complex physiological state characterized by synchronized cortical and cardiac oscillations, which reflect dynamic communication and interaction between the central (CNS) and autonomic (ANS ...

A new study unveils an adaptive deep brain stimulation system that adjusts in real time to prevent Parkinson's falls.