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

A physics-based model that accounts for membrane surface folds predicts cell adhesion on nanopillar arrays with 97% accuracy, ...

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

Highlights: Living rat neurons successfully trained to perform real-time AI computations Structured neuron networks improved learning and reduced synchronization Technology shows strong potential for ...

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

A collaborative research group has shown that biological neurons can be trained to perform a temporal pattern learning task ...

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

Can living neurons replace AI? A new study shows that biological neural networks (BNNs) can be trained to perform reservoir ...

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 ...