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Materials (Basel, Switzerland)
Sep 13, 2023;16 (18):

Double-Forming Mechanism of TaO-Based Resistive Memory Device and Its Synaptic Applications.

Dongyeol Ju, Sunghun Kim, Subaek Lee, Sungjun Kim
Author Information
  1. Dongyeol Ju: Division of Electronics and Electrical Engineering, Dongguk University, Seoul 04620, Republic of Korea.
  2. Sunghun Kim: Division of Electronics and Electrical Engineering, Dongguk University, Seoul 04620, Republic of Korea.
  3. Subaek Lee: Division of Electronics and Electrical Engineering, Dongguk University, Seoul 04620, Republic of Korea.
  4. Sungjun Kim: Division of Electronics and Electrical Engineering, Dongguk University, Seoul 04620, Republic of Korea.
PMID: 37763461 DOI: 10.3390/ma16186184

Abstract

The bipolar resistive switching properties of Pt/TaO/InO/ITO-resistive random-access memory devices under DC and pulse measurement conditions are explored in this work. Transmission electron microscopy and X-ray photoelectron spectroscopy were used to confirm the structure and chemical compositions of the devices. A unique two-step forming process referred to as the double-forming phenomenon and self-compliance characteristics are demonstrated under a DC sweep. A model based on oxygen vacancy migration is proposed to explain its conduction mechanism. Varying reset voltages and compliance currents were applied to evaluate multilevel cell characteristics. Furthermore, pulses were applied to the devices to demonstrate the neuromorphic system's application via testing potentiation, depression, spike-timing-dependent plasticity, and spike-rate-dependent plasticity.

Keywords

neuromorphic system resistive switching spike-timing-dependent plasticity synaptic plasticity

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Grants

  1. 2021R1C1C1004422/National Research Foundation of Korea
Journal Article

Word Cloud

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