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Modulation of Binary Neuroplasticity in a Heterojunction-Based Ambipolar Transistor

Yan Wang, Qiufan Liao, Donghong She, Ziyu Lv, Yue Gong, Guanglong Ding, Wenbin Ye, Jinrui Chen, Ziyu Xiong, Guo Ping Wang, Ye Zhou, Su‐Ting Han

2020ACS Applied Materials & Interfaces61 citationsDOI

Abstract

To keep pace with the upcoming big-data era, the development of a device-level neuromorphic system with highly efficient computing paradigms is underway with numerous attempts. Synaptic transistors based on an all-solution processing method have received growing interest as building blocks for neuromorphic computing based on spikes. Here, we propose and experimentally demonstrated the dual operation mode in poly{2,2-(2,5-bis(2-octyldodecyl)-3,6-dioxo-2,3,5,6-tetrahydropyrrolo[3,4-c]pyrrole-1,4-diyl)dithieno[3,2-b]thiophene-5,5-diyl-alt-thiophen-2,5-diyl}(PDPPBTT)/ZnO junction-based synaptic transistor from ambipolar charge-trapping mechanism to analog the spiking interfere with synaptic plasticity. The heterojunction formed by PDPPBTT and ZnO layers serves as the basis for hole-enhancement and electron-enhancement modes of the synaptic transistor. Distinctive synaptic responses of paired-pulse facilitation (PPF) and paired-pulse depression (PPD) were configured to achieve the training/recognition function for digit image patterns at the device-to-system level. The experimental results indicate the potential application of the ambipolar transistor in future neuromorphic intelligent systems.

Topics & Concepts

Neuromorphic engineeringAmbipolar diffusionMaterials scienceTransistorNeural facilitationHeterojunctionModulation (music)OptoelectronicsComputer scienceNanotechnologyFacilitationNeuroscienceVoltageElectrical engineeringPhysicsElectronArtificial neural networkArtificial intelligenceBiologyEngineeringExcitatory postsynaptic potentialQuantum mechanicsAcousticsInhibitory postsynaptic potentialAdvanced Memory and Neural ComputingNeuroscience and Neural EngineeringPhotoreceptor and optogenetics research
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