Abstract: A flexible bi-directional bio-interface design using indium zinc oxide (IZO) thin-film transistors (TFTs) to share the same microelectrode array and electrical interconnects is proposed for ...

The company's brain-computer interface uses direct cortical electrical stimulation to help with motor recovery in people with ...

Scientists train living rat neurons to perform real-time AI computation, marking a breakthrough in bio-hybrid computing systems.

Researchers at Tohoku University and Future University Hakodate have trained cultured rat cortical neurons to perform ...

Japanese researchers trained cultured rat cortical neurons to autonomously generate complex temporal signals using a ...

Living brain cells grown in a lab have been wired into computers to perform machine learning tasks, pointing toward a future ...

A research team at Tohoku University and Future University Hakodate has demonstrated that living biological neurons can be ...

What is the CAMEO organoid sensor? Researchers have created a low-cost, carbon nanotube-based microelectrode array to monitor ...

Researchers have demonstrated a new class of low-cost, scalable sensors that can be used to monitor electrical activity in ...

Researchers have demonstrated a new class of low-cost, scalable sensors that can be used to monitor electrical activity in human cerebral organoids ...

FUTRUE Neurosciences has achieved its first milestone on its mission to become the global leader in modern brain-computer ...