NiO 电阻开关存储效应的空间非均匀性。

Spatial nonuniformity in resistive-switching memory effects of NiO.

机构信息

Institute of Scientific and Industrial Research, Osaka University, 8-1 Mihogaoka Ibaraki, Osaka 567-0047, Japan.

出版信息

J Am Chem Soc. 2011 Aug 17;133(32):12482-5. doi: 10.1021/ja206063m. Epub 2011 Jul 22.

DOI:10.1021/ja206063m

Abstract

Electrically driven resistance change phenomenon in metal/NiO/metal junctions, so-called resistive switching (RS), is a candidate for next-generation universal nonvolatile memories. However, the knowledge as to RS mechanisms is unfortunately far from comprehensive, especially the spatial switching location, which is crucial information to design reliable devices. In this communication, we demonstrate the identification of the spatial switching location of bipolar RS by introducing asymmetrically passivated planar NiO nanowire junctions. We have successfully identified that the bipolar RS in NiO occurs near the cathode rather than the anode. This trend can be interpreted in terms of an electrochemical redox model based on ion migration and p-type conduction.

摘要

金属/氧化镍/金属结中的电驱动电阻变化现象，即所谓的电阻开关（RS），是下一代通用非易失性存储器的候选者。然而，对于 RS 机制的了解不幸还远远不够，特别是空间开关位置，这是设计可靠器件的关键信息。在本通讯中，我们通过引入非对称钝化的平面 NiO 纳米线结，证明了双极 RS 空间开关位置的识别。我们已经成功地确定了 NiO 中的双极 RS 发生在阴极附近而不是阳极附近。这种趋势可以根据基于离子迁移和 p 型传导的电化学氧化还原模型来解释。

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NiO 电阻开关存储效应的空间非均匀性。

Spatial nonuniformity in resistive-switching memory effects of NiO.

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