Publication | Open Access
Light‐Stimulated Synaptic Transistor with High PPF Feature for Artificial Visual Perception System Application (Adv. Funct. Mater. 22/2022)
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2022
Year
EngineeringHexagonal BoronJun WangOptoelectronic DevicesGraphene NanomeshesGraphene-based Nano-antennasElectronic DevicesNanoelectronicsNeuromorphic EngineeringPhysicsOptoelectronic MaterialsVisual PathwayNeural InterfaceHigh Ppf FeatureSynaptic TransistorGraphene Quantum DotElectronic MaterialsApplied PhysicsGrapheneLight-stimulated Synaptic TransistorNeuroscienceGraphene NanoribbonOptoelectronics
Light-Stimulated Synaptic Transistors Optoelectronic synaptic devices with a high paired pulse facilitation index are essential for constructing high-precision artificial visual perception systems. In article number 2113053, Jun Wang and co-workers develop a light-stimulated synaptic transistor with an ultra-high PPF index (≈196%) by introducing hexagonal boron nitride into a classic graphene-based hybrid transistor framework, which provides an effective method for constructing artificial visual perception systems in the future.