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Bilayered Oxide Heterostructure‐Mediated Capacitance‐Based Neuroplasticity Modulation for Neuromorphic Classification

Pei‐En Lin, Kuan‐Ting Chen, Rajneesh Chaurasiya, Hoang‐Hiep Le, Chia‐Hao Cheng, Darsen D. Lu, Jen‐Sue Chen

2023Advanced Functional Materials21 citationsDOI

Abstract

Abstract To overcome the limitations of memristors in neuromorphic computation, memcapacitors are gaining attention owing to their scalability, low power dissipation, and sneak‐path‐free nature. This study focuses on the progressive capacitive switching of a bilayered metal‐oxide WO x /ZrO x heterojunction memcapacitor. To gain a better understanding of the interfacial switching behavior, density functional theory simulations are used to analyze the defects and oxide formation energy of the heterostructure. The memcapacitive characteristics are studied using the capacitance–voltage curves under different voltage‐sweeping conditions and impedance analysis. The memcapacitive characteristics can be attributed to the trapping of carriers in the depletion region of the WO x /ZrO x heterojunction, which is modulated by the relocation of oxygen vacancies under the electric field. The device exhibits a wider dynamic range of capacitance values than other metal‐oxide memcapacitors reported, and demonstrates versatile synaptic functions, such as potentiation/depression behavior, paired‐pulse facilitation, experience‐dependent plasticity, and learning–relearning behavior. Furthermore, an accuracy of 99.01% is achieved in handwritten digit classification using the capacitive state as the weight through a computing‐in‐memory emulator. The results affirm the applicability of the WO x /ZrO x memcapacitor in future capacitive neural networks.

Topics & Concepts

Materials scienceNeuromorphic engineeringHeterojunctionCapacitanceOptoelectronicsMemristorCapacitive sensingOxideNeural facilitationVoltageNanotechnologyElectronic engineeringLong-term potentiationArtificial neural networkComputer scienceElectrical engineeringArtificial intelligenceElectrodeEngineeringReceptorOperating systemBiochemistryPhysical chemistryMetallurgyChemistryAdvanced Memory and Neural ComputingFerroelectric and Negative Capacitance DevicesNeuroscience and Neural Engineering