Journal
RSC ADVANCES
Volume 8, Issue 32, Pages 17622-17628Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c8ra03181a
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Funding
- Ministry of Science and Technology [MOST 106-2221-E-006-178, MOST 105-2221-E-006-118]
- Center for Frontier Materials and Micro/Nano Science and Technology, National Cheng Kung University, Taiwan
- Advanced Optoelectronic Technology Center, National Cheng Kung University, for projects from the Ministry of Education
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We discuss the fabrication procedure and device characteristics of ITO/Zn2TiO4/Pt resistive random-access memory (RRAM) at room temperature. Four different resistive states were obtained by applying different current compliances, all of which showed good retention characteristics with no obvious degradation and were individually distinguished after 10 000 s at a read voltage of 100 mV. The multilevel memory effect can be attributed to the combination of the radial growth of filaments and the formation of conductive filaments when applying different compliance current values during the set process. The set and reset voltages of the ITO/Zn2TiO4/Pt RRAM device were maintained within similar to 1 V. The device performed well at low operation voltages. The mechanisms of multilevel resistive switching characteristics were investigated to illustrate the multilevel carrier conduction phenomenon associated with Zn2TiO4-based RRAM devices. In this study, our group illustrated the application of zinc titanate (Zn2TiO4) in non-volatile memories for the first time.
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