High performance of graphene oxide-doped silicon oxide-based resistance random access memory

被引：0

作者：

Rui Zhang

Kuan-Chang Chang

Ting-Chang Chang

Tsung-Ming Tsai

Kai-Huang Chen

Jen-Chung Lou

Jung-Hui Chen

Tai-Fa Young

Chih-Cheng Shih

Ya-Liang Yang

Yin-Chih Pan

Tian-Jian Chu

Syuan-Yong Huang

Chih-Hung Pan

Yu-Ting Su

Yong-En Syu

Simon M Sze

机构：

[1] School of Software and Microelectronics,Department of Materials and Optoelectronic Science

[2] Peking University,Department of Physics

[3] National Sun Yat-Sen University,Advanced Optoelectronics Technology Center

[4] National Sun Yat-Sen University,Department of Electronic Engineering and Computer Science

[5] National Cheng Kung University,Department of Chemistry

[6] Tung-Fang Design Institute,Department of Mechanical and Electro

[7] National Kaohsiung Normal University,Mechanical Engineering

[8] National Sun Yat-Sen University,Department of Electronics Engineering

[9] National Chiao Tung University,undefined

来源：

Nanoscale Research Letters | / 8卷

关键词：

High performance; Graphene oxide; RRAM; Hopping conduction;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

In this letter, a double active layer (Zr:SiOx/C:SiOx) resistive switching memory device with outstanding performance is presented. Through current fitting, hopping conduction mechanism is found in both high-resistance state (HRS) and low-resistance state (LRS) of double active layer RRAM devices. By analyzing Raman and FTIR spectra, we observed that graphene oxide exists in C:SiOx layer. Compared with single Zr:SiOx layer structure, Zr:SiOx/C:SiOx structure has superior performance, including low operating current, improved uniformity in both set and reset processes, and satisfactory endurance characteristics, all of which are attributed to the double-layer structure and the existence of graphene oxide flakes formed by the sputter process.

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