Configurable ultra-low operating voltage resistive switching between bipolar and threshold behaviors for Ag/TaOx/Pt structures

Xu Huang; Kang'an Jiang; Yiru Niu; Renzhi Wang; Diyuan Zheng; Anhua Dong; Xinyuan Dong; Chunlian Mei; Jing Lu; Shuai Liu; Zhikai Gan; Ni Zhong; Hui Wang

doi:10.1063/1.5047925

Configurable ultra-low operating voltage resistive switching between bipolar and threshold behaviors for Ag/TaO_x/Pt structures

Xu Huang
, Kang'an Jiang
, Yiru Niu
, Renzhi Wang
, Diyuan Zheng
, Anhua Dong
, Xinyuan Dong
, Chunlian Mei
, Jing Lu
, Shuai Liu
, Zhikai Gan
, Ni Zhong
, Hui Wang^*

^*此作品的通讯作者

物理与电子科学学院

Shanghai Jiao Tong University
National Engineering Research Centre for Nanotechnology
North University of China
CAS - Shanghai Institute of Technical Physics

科研成果: 期刊稿件 › 文章 › 同行评审

32 引用（Scopus）

摘要

An ultra-low operating voltage bipolar resistive switching is observed in Ag/TaO_x/Pt devices. They show a typical bipolar resistive switching with both low operating voltages and high cycling endurance when the compliance current (I_CC) is 0.3 mA. Moreover, the operating voltage is considerably influenced by the grain size of the film. The V_Forming increases dramatically when the grain size exceeds a critical value. Meanwhile, the bipolar resistive switching and threshold switching in Ag/TaO_x/Pt devices can be converted to each other by changing the magnitude of the I_CC. Finally, a model based on the migration of Ag⁺ is proposed to explain the ultra-low operating voltage and the critical effect of grain size. The model is proved by simulation. These findings may lead to ultra-low power memories and contribute to a further understanding of the resistive switching effect.

源语言	英语
文章编号	112103
期刊	Applied Physics Letters
卷	113
期	11
DOI	https://doi.org/10.1063/1.5047925
出版状态	已出版 - 10 9月 2018

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title = "Configurable ultra-low operating voltage resistive switching between bipolar and threshold behaviors for Ag/TaOx/Pt structures",

abstract = "An ultra-low operating voltage bipolar resistive switching is observed in Ag/TaOx/Pt devices. They show a typical bipolar resistive switching with both low operating voltages and high cycling endurance when the compliance current (ICC) is 0.3 mA. Moreover, the operating voltage is considerably influenced by the grain size of the film. The VForming increases dramatically when the grain size exceeds a critical value. Meanwhile, the bipolar resistive switching and threshold switching in Ag/TaOx/Pt devices can be converted to each other by changing the magnitude of the ICC. Finally, a model based on the migration of Ag+ is proposed to explain the ultra-low operating voltage and the critical effect of grain size. The model is proved by simulation. These findings may lead to ultra-low power memories and contribute to a further understanding of the resistive switching effect.",

author = "Xu Huang and Kang'an Jiang and Yiru Niu and Renzhi Wang and Diyuan Zheng and Anhua Dong and Xinyuan Dong and Chunlian Mei and Jing Lu and Shuai Liu and Zhikai Gan and Ni Zhong and Hui Wang",

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day = "10",

doi = "10.1063/1.5047925",

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T1 - Configurable ultra-low operating voltage resistive switching between bipolar and threshold behaviors for Ag/TaOx/Pt structures

AU - Huang, Xu

AU - Jiang, Kang'an

AU - Niu, Yiru

AU - Wang, Renzhi

AU - Zheng, Diyuan

AU - Dong, Anhua

AU - Dong, Xinyuan

AU - Mei, Chunlian

AU - Lu, Jing

AU - Liu, Shuai

AU - Gan, Zhikai

AU - Zhong, Ni

AU - Wang, Hui

PY - 2018/9/10

Y1 - 2018/9/10

N2 - An ultra-low operating voltage bipolar resistive switching is observed in Ag/TaOx/Pt devices. They show a typical bipolar resistive switching with both low operating voltages and high cycling endurance when the compliance current (ICC) is 0.3 mA. Moreover, the operating voltage is considerably influenced by the grain size of the film. The VForming increases dramatically when the grain size exceeds a critical value. Meanwhile, the bipolar resistive switching and threshold switching in Ag/TaOx/Pt devices can be converted to each other by changing the magnitude of the ICC. Finally, a model based on the migration of Ag+ is proposed to explain the ultra-low operating voltage and the critical effect of grain size. The model is proved by simulation. These findings may lead to ultra-low power memories and contribute to a further understanding of the resistive switching effect.

AB - An ultra-low operating voltage bipolar resistive switching is observed in Ag/TaOx/Pt devices. They show a typical bipolar resistive switching with both low operating voltages and high cycling endurance when the compliance current (ICC) is 0.3 mA. Moreover, the operating voltage is considerably influenced by the grain size of the film. The VForming increases dramatically when the grain size exceeds a critical value. Meanwhile, the bipolar resistive switching and threshold switching in Ag/TaOx/Pt devices can be converted to each other by changing the magnitude of the ICC. Finally, a model based on the migration of Ag+ is proposed to explain the ultra-low operating voltage and the critical effect of grain size. The model is proved by simulation. These findings may lead to ultra-low power memories and contribute to a further understanding of the resistive switching effect.

UR - https://www.scopus.com/pages/publications/85053349768

U2 - 10.1063/1.5047925

DO - 10.1063/1.5047925

M3 - 文章

AN - SCOPUS:85053349768

SN - 0003-6951

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JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 11

M1 - 112103

ER -

Configurable ultra-low operating voltage resistive switching between bipolar and threshold behaviors for Ag/TaOx/Pt structures

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Configurable ultra-low operating voltage resistive switching between bipolar and threshold behaviors for Ag/TaO_x/Pt structures