Molecules (Jul 2023)

Tunable Resistive Switching Behaviors and Mechanism of the W/ZnO/ITO Memory Cell

  • Zhiqiang Yu,
  • Jinhao Jia,
  • Xinru Qu,
  • Qingcheng Wang,
  • Wenbo Kang,
  • Baosheng Liu,
  • Qingquan Xiao,
  • Tinghong Gao,
  • Quan Xie

DOI
https://doi.org/10.3390/molecules28145313
Journal volume & issue
Vol. 28, no. 14
p. 5313

Abstract

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A facile sol–gel spin coating method has been proposed for the synthesis of spin-coated ZnO nanofilms on ITO substrates. The as-prepared ZnO-nanofilm-based W/ZnO/ITO memory cell showed forming-free and tunable nonvolatile multilevel resistive switching behaviors with a high resistance ratio of about two orders of magnitude, which can be maintained for over 103 s and without evident deterioration. The tunable nonvolatile multilevel resistive switching phenomena were achieved by modulating the different set voltages of the W/ZnO/ITO memory cell. In addition, the tunable nonvolatile resistive switching behaviors of the ZnO-nanofilm-based W/ZnO/ITO memory cell can be interpreted by the partial formation and rupture of conductive nanofilaments modified by the oxygen vacancies. This work demonstrates that the ZnO-nanofilm-based W/ZnO/ITO memory cell may be a potential candidate for future high-density, nonvolatile, memory applications.

Keywords