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Bioinspired mechano-photonic artificial synapse based on graphene/MoS <sub>2</sub> heterostructure

Jinran Yu, Xixi Yang, Guoyun Gao, Yao Xiong, Yifei Wang, Jing Han, Youhui Chen, Huai Zhang, Qijun Sun, Zhong Lin Wang

2021Science Advances371 citationsDOIOpen Access PDF

Abstract

heterostructure and an integrated triboelectric nanogenerator. By controlling the charge transfer/exchange in the heterostructure with triboelectric potential, the optoelectronic synaptic behaviors can be readily modulated, including postsynaptic photocurrents, persistent photoconductivity, and photosensitivity. The photonic synaptic plasticity is elaborately investigated under the synergistic effect of mechanical displacement and the light pulses embodying different spatiotemporal information. Furthermore, artificial neural networks are simulated to demonstrate the improved image recognition accuracy up to 92% assisted with mechanical plasticization. The mechano-photonic artificial synapse is highly promising for implementing mixed-modal interaction, emulating complex biological nervous system, and promoting the development of interactive artificial intelligence.

Topics & Concepts

SynapsePhotonicsGrapheneHeterojunctionMaterials scienceNanotechnologyOptoelectronicsPlasticityNeuroscienceBiologyComposite materialAdvanced Memory and Neural ComputingNonlinear Optical Materials StudiesConducting polymers and applications