Effect of chemical bonding states in TaOx base layers on rectifying bipolar resistive switching characteristics

Kim, Jonggi; Mok, In Su; Kim, Young-Jae; Lee, Kyumin; Ko, Dae Hong; Sohn, Hyunchul

doi:10.1116/1.4806766

Cited by 3 publications

(1 citation statement)

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“…To induce dissolution and formation of filaments at the interface between the electrode and matrix, an asymmetrical structure (different metals as top and bottom electrodes) was proposed [10,24].In addition, there was a report on controlling the rupture and recovery of filaments at the interface between layers for a multilayer-electrolyte [25]. However, few reported a symmetrical structure (the same metal as a top and bottom electrode) for their investigation of unipolar and bipolar RS and as a comparison of the two interfaces serving as the active switching region.…”

Section: Introductionmentioning

confidence: 99%

An Investigation on Resistive Switching Characteristics Induced by HfOx and Electrode Interfaces

Chen

Feng

2015

KEM

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Pt/HfOx/Pt resistive switching devices with symmetric electrodes were fabricated. Bipolar resistive switching (RS) behaviors and unipolar behaviors were then observed under a positive/negative bias applied to the top electrode (TE). A comparison and analysis of bipolar/unipolar RS behaviors under different voltage polarities was then performed.The results demonstrated that bipolar RS was achieved via a drift of anion (O2-) under the electric field resulting in the rupture and recovery of filaments at the interface. When the filaments dissolved and formed at the interface near BE, the performance of the bipolar RS devices was better. However, for unipolar RS devices, when filaments dissolved and formed at the interface near TE, the performance was even better. These results indicated that a drift of O2-caused by electric field and a diffusion of O2-induced by Joule heat were the main reasons for unipolar RS. The different characteristics of the bipolar and unipolar devices can be attributed to the existence of a different number of defects at the active interface of the devices. This was where the rupture and recovery of filaments occurred. The results also indicate that the active interface is more important than other interfaces for RRAM performance.

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Section: Introductionmentioning

confidence: 99%