期刊
RSC ADVANCES
卷 12, 期 22, 页码 14235-14245出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/d2ra02456j
关键词
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资金
- Newton International Fellowship (NIF) - Royal Society
- NIF fellowship [2018-NIF\R1\181831]
In this study, electrochemical metallization memory (ECM) devices were fabricated using sub-stoichiometric deposition of tantalum oxide films. The influence of zirconium as the active top electrode material was investigated in these devices. The results showed stable bipolar resistive switching properties, indicating that zirconium can be considered as a potential active electrode material for future nonvolatile nanoelectronics.
Electrochemical metallization memory (ECM) devices have been made by sub-stoichiometric deposition of a tantalum oxide switching film (Ta2O5-x) using sputtering. We investigated the influence of zirconium as the active top electrode material in the lithographically fabricated ECM devices. A simple capacitor like (Pt/Zr/Ta2O5-x/Pt) structure represented the resistive switching memory. A cyclic voltammetry measurement demonstrated the electrochemical process of the memory device. The I-V characteristics of ECMs show stable bipolar resistive switching properties with reliable endurance and retention. The resistive switching mechanism results from the formation and rupture of a conductive filament characteristic of ECM. Our results suggest that Zr can be considered a potential active electrode in the ECMs for the next generation of nonvolatile nanoelectronics. We successfully showed that the ECM device can work under AC pulses to emulate the essential characteristics of an artificial synapse by further improvements.
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