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A Van der Waals Optoelectronic Synapse with Tunable Positive and Negative Post‐Synaptic Current for Highly Accurate Spiking Neural Networks

Hye‐Jin Yoon, Soeun Park, Yeong Kwon Kim, Juhwan Baek, Ki Han Kim, Seongil Yun, Hyeonchang Son, Jeong-Ho Choi, Byung Chul Jang, Dong‐Ho Kang

2025Advanced Functional Materials5 citationsDOIOpen Access PDF

Abstract

Abstract Spiking neural networks (SNNs) represent a promising computing architecture for neuromorphic hardware, as they process and store information through spike signals, closely mimicking the way the human brain operates. However, most synaptic devices recently proposed for hardware SNN implementations are limited to exhibiting analogue tuning within a single conductance polarity, making them inadequate for realizing scalable and energy‐efficient neuromorphic systems. In this study, an optoelectronic synaptic device based on a ReS 2 /WSe 2 / h ‐BN heterostructure, enabling conductance modulation across both positive and negative states within a single device is demonstrated. This bidirectional plasticity originates from electrostatic modulation of the WSe 2 Fermi level, induced by voltage pulses applied through an O 2 plasma‐treated h ‐BN weight‐control layer. The device exhibits reversible photocurrent polarity, reliable potentiation/depression of the postsynaptic current, and stable synaptic weight retention with reproducible multi‐cycle operation. System‐level simulations using a 1024–20–3 SNN architecture confirmed the functional advantage of a bidirectional synapse, with networks achieving over 95% facial recognition accuracy within 20 training epochs, whereas the unidirectional synapse‐based network plateaued below 75%. These findings highlight the potential of optoelectronic synaptic device with bidirectional plasticity as a promising device platform for efficient on‐chip learning in next‐generation neuromorphic hardware system.

Topics & Concepts

Neuromorphic engineeringSpiking neural networkMaterials scienceScalabilitySynaptic weightConductanceArtificial neural networkComputer sciencePhotocurrentModulation (music)Spike-timing-dependent plasticityPostsynaptic CurrentSpike (software development)OptoelectronicsSynapseVoltagePostsynaptic potentialLearning ruleSynaptic plasticityHebbian theoryMemristorElectronic engineeringNeuroscienceProcess (computing)Biological neural networkNanoscopic scalePlasticityArtificial intelligenceNanotechnologyTopology (electrical circuits)ElectrostaticsAdvanced Memory and Neural ComputingNeural Networks and Reservoir ComputingPhotoreceptor and optogenetics research