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界面化学键介导的离子电阻开关。

Interfacial chemical bonding-mediated ionic resistive switching.

作者信息

Moon Hyeongjoo, Zade Vishal, Kang Hung-Sen, Han Jin-Woo, Lee Eunseok, Hwang Cheol Seong, Lee Min Hwan

机构信息

School of Engineering, University of California, Merced, CA 95343, USA.

Center for Nanotechnology, NASA Ames Research Center, Moffett Field, CA 94035, USA.

出版信息

Sci Rep. 2017 Apr 28;7(1):1264. doi: 10.1038/s41598-017-01493-x.

Abstract

In this paper, we present a unique resistive switching (RS) mechanism study of Pt/TiO/Pt cell, one of the most widely studied RS system, by focusing on the role of interfacial bonding at the active TiO-Pt interface, as opposed to a physico-chemical change within the RS film. This study was enabled by the use of a non-conventional scanning probe-based setup. The nanoscale cell is formed by bringing a Pt/TiO-coated atomic force microscope tip into contact with a flat substrate coated with Pt. The study reveals that electrical resistance and interfacial bonding status are highly coupled together. An oxygen-mediated chemical bonding at the active interface between TiO and Pt is a necessary condition for a non-polar low-resistance state, and a reset switching process disconnects the chemical bonding. Bipolar switching mode did not involve the chemical bonding. The nature of chemical bonding at the TiO-metal interface is further studied by density functional theory calculations.

摘要

在本文中,我们通过聚焦活性TiO-Pt界面处的界面键合作用,而非电阻开关(RS)薄膜内的物理化学变化,对Pt/TiO/Pt单元(研究最为广泛的RS系统之一)进行了独特的电阻开关机制研究。本研究借助一种基于非传统扫描探针的装置得以实现。通过将涂覆有Pt/TiO的原子力显微镜探针与涂覆有Pt的平面衬底接触,形成了纳米级单元。研究表明,电阻与界面键合状态高度耦合。TiO与Pt之间活性界面处由氧介导的化学键合是形成非极性低电阻状态的必要条件,而复位开关过程会断开化学键合。双极开关模式不涉及化学键合。通过密度泛函理论计算进一步研究了TiO-金属界面处化学键合的性质。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/23f9/5430901/f0cbf5d5f607/41598_2017_1493_Fig1_HTML.jpg

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