USC researchers built artificial neurons that replicate real brain processes using ion-based diffusive memristors. These ...

The new model developed by Flatiron Institute researchers proposes that biological neurons have more control over their surroundings than previously thought, something that could be replicated in the ...

Through pioneering neuromorphic computing research, Yiran Chen is developing brain-inspired hardware neurons that could lead ...

A new collaboration has unlocked new potential for the field by creating a novel high-performance organic electrochemical neuron that responds within the frequency range of human neurons. Artificially ...

Scientists have built an artificial neuron that’s so realistic it fires, learns, and responds to chemical signals just like the real thing – a breakthrough that could transform computing, medicine, ...

Parkinson’s disease steals ease and movement by striking a narrow band of midbrain neurons. If you study or cover ...

Researchers are cultivating human brain cells in laboratories to transform them into biological circuits for creating ...

Artificial neurons that mimic real brain cells using ion-based signals instead of electrons—promising ultra-efficient, ...

As power and latency bottlenecks grow, engineers are exploring neuromorphic chips to deliver low-energy, real-time AI at the edge of embedded and IoT systems.

A drug candidate found to protect nerve cells damaged by motor neuron disease (MND), could offer new hope to people living ...

Artificially engineered biological processes, such as perception systems, remain an elusive target for organic electronics. A complete perception system built by designing other organic materials and ...