A Gel Electrolyte Breakthrough for Brain-Inspired Chips
Researchers have developed a novel anion-excessive gel electrolyte to overcome a fundamental bottleneck in organic neuromorphic devices. This innovation, applied in organic synaptic transistors, directly addresses the limited long-term plasticity and weak multistate retention that have hindered practical implementation in artificial neural networks. The key advancement lies in a “charge buffering” mechanism that maintains electrical neutrality within the device even after electrochemical doping.
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