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Optoelectronic synapse using monolayer MoS2 field effect transistors

Molla Manjurul Islam, Durjoy Dev, Adithi Krishnaprasad, Laurène Tétard, Tania Roy

2020Scientific Reports111 citationsDOIOpen Access PDF

Abstract

Abstract Optical data sensing, processing and visual memory are fundamental requirements for artificial intelligence and robotics with autonomous navigation. Traditionally, imaging has been kept separate from the pattern recognition circuitry. Optoelectronic synapses hold the special potential of integrating these two fields into a single layer, where a single device can record optical data, convert it into a conductance state and store it for learning and pattern recognition, similar to the optic nerve in human eye. In this work, the trapping and de-trapping of photogenerated carriers in the MoS 2 /SiO 2 interface of a n-channel MoS 2 transistor was employed to emulate the optoelectronic synapse characteristics. The monolayer MoS 2 field effect transistor (FET) exhibits photo-induced short-term and long-term potentiation, electrically driven long-term depression, paired pulse facilitation (PPF), spike time dependent plasticity, which are necessary synaptic characteristics. Moreover, the device’s ability to retain its conductance state can be modulated by the gate voltage, making the device behave as a photodetector for positive gate voltages and an optoelectronic synapse at negative gate voltages.

Topics & Concepts

OptoelectronicsTransistorMaterials sciencePhotodetectorComputer scienceVoltageSynapseField-effect transistorNeural facilitationConductanceElectrical engineeringLong-term potentiationNeurosciencePhysicsChemistryBiologyEngineeringCondensed matter physicsReceptorBiochemistryAdvanced Memory and Neural ComputingNeural Networks and Reservoir ComputingPhotoreceptor and optogenetics research
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