Leakage Current-Forming Voltage Relation and Oxygen Gettering in [Formula Omitted] RRAM Devices

Leakage Current-Forming Voltage Relation and Oxygen Gettering in [Formula Omitted] RRAM Devices

We observe a trend between initial leakage currents in polycrystalline [Formula Omitted] resisitive random access memory (RRAM) cells (before forming) and the forming voltages. This trend points to the dominant role played by conduction paths located at grain boundaries, which is promoted by the oxy...

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Veröffentlicht in:IEEE electron device letters 2013-06, Vol.34 (6), p.750
Hauptverfasser: Young-Fisher, Kristina G, Bersuker, Gennadi, Butcher, Brian, Padovani, Andrea, Larcher, Luca, Veksler, D, Gilmer, David C
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Sprache:eng
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Zusammenfassung:We observe a trend between initial leakage currents in polycrystalline [Formula Omitted] resisitive random access memory (RRAM) cells (before forming) and the forming voltages. This trend points to the dominant role played by conduction paths located at grain boundaries, which is promoted by the oxygen deficiency in [Formula Omitted]. One of these paths is then converted into the conductive filament responsible for nonvolatile resistance switching. In addition, we find that by engineering the RRAM stack, the forming voltage can be tuned-up to meet specific RRAM requirements, such as lower power and forming-less operations.
ISSN:0741-3106
1558-0563
DOI:10.1109/LED.2013.2256101