A Charge-Buffering Gel Unlocks Better Organic Neuromorphic Computing
A fundamental limitation of organic electrochemical transistor (OECT)-based neuromorphic devices has been their limited long-term plasticity and weak multistate retention, stemming from the disruption of electrical neutrality when ions penetrate the active layer. Researchers have now developed a novel anion-excessive gel electrolyte for organic synaptic transistors (AEG-OSTs) that introduces a “charge buffering” mechanism. This design maintains electrical neutrality in the electrolyte even after electrochemical doping, which significantly reduces the Coulombic force acting on anions within the active layer.
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