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 engineered biological processes, such as perception systems, remain an elusive target for organic electronics ...

Advancements could enhance perceptual capabilities in robotics. Artificially engineered biological processes, such as ...

Researchers from Northwestern and Georgia Tech developed an organic electrochemical neuron that fires at human-like ...

Artificial neuron has 50 times broader frequency range than past models Using engineered tactile receptors and synapses ... of organometallic chemistry, chemical catalysis, materials science ...

Drugs targeting amyloid plaques have failed to show efficacy in clinical trials. A new approach is needed to tackle AD ...

It was found to inhibit synapse development and decrease neuron survival rates ... Evidence suggests that exposure to these chemicals during critical stages of brain development may contribute ...

Among the compounds the team tested, a type of forever chemical known as perfluorooctanoic acid (PFOA) hit genes the hardest, in a way that diminished the growth of synapses ... one gene that is key ...