Neuromorphic devices that mimic the energy-efficient sensing and processing capabilities of biological neurons hold significant promise for developing bioelectronic systems capable of precise sensing ...

Can organic electronics be used to mimic biological processes like sensory systems? This is what a recent study published in the Proceedings of the National Academy of Sciences hopes to address as a ...

Organic electrochemical neurons respond to brain signals in real time, firing at biologically relevant speeds. Their flexibility and low power use could enable soft, implantable systems for ...

Northwestern University engineers printed artificial neurons that don’t just imitate the brain — they talk to it. In a new study, the Northwestern team developed flexible, low-cost devices that ...

Based on the DA mediation, some sophisticated neuronal functions, including integration-and-firing, synaptic facilitation-induced spike broadening and DA-tunable spiking number and width, were ...