纳米尺度铁电隧道结中的隧穿电阻效应

Tunneling electroresistance effect in ferroelectric tunnel junctions at the nanoscale.

作者信息

Gruverman A, Wu D, Lu H, Wang Y, Jang H W, Folkman C M, Zhuravlev M Ye, Felker D, Rzchowski M, Eom C-B, Tsymbal E Y

机构信息

University of Nebraska, Lincoln, Nebraska 68588, USA.

出版信息

Nano Lett. 2009 Oct;9(10):3539-43. doi: 10.1021/nl901754t.

DOI:10.1021/nl901754t

PMID:19697939

Abstract

Using a set of scanning probe microscopy techniques, we demonstrate the reproducible tunneling electroresistance effect on nanometer-thick epitaxial BaTiO(3) single-crystalline thin films on SrRuO(3) bottom electrodes. Correlation between ferroelectric and electronic transport properties is established by direct nanoscale visualization and control of polarization and tunneling current. The obtained results show a change in resistance by about 2 orders of magnitude upon polarization reversal on a lateral scale of 20 nm at room temperature. These results are promising for employing ferroelectric tunnel junctions in nonvolatile memory and logic devices.

摘要

利用一组扫描探针显微镜技术，我们展示了在 SrRuO(3) 底部电极上的纳米厚外延 BaTiO(3) 单晶薄膜上可重复的隧穿电阻效应。通过对极化和隧穿电流的直接纳米级可视化和控制，建立了铁电与电子输运性质之间的相关性。所得结果表明，在室温下，在 20 nm 的横向尺度上极化反转时电阻变化约 2 个数量级。这些结果对于在非易失性存储器和逻辑器件中采用铁电隧道结很有前景。

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纳米尺度铁电隧道结中的隧穿电阻效应

Tunneling electroresistance effect in ferroelectric tunnel junctions at the nanoscale.

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