Your search keyword '"Syu, Yong-En"' showing total 5 results

1. Reducing operation current of Ni-doped silicon oxide resistance random access memory by supercritical CO2 fluid treatment.

Author

Chang, Kuan-Chang, Tsai, Tsung-Ming, Chang, Ting-Chang, Syu, Yong-En, Wang, Chia-C., Chuang, Siang-Lan, Li, Cheng-Hua, Gan, Der-Shin, and Sze, Simon M.

Subjects

SILICON oxide films, SUPERCRITICAL carbon dioxide, PASSIVITY (Chemistry), SEMICONDUCTOR storage devices, ELECTRIC resistance, SEMICONDUCTOR doping, NICKEL

Abstract

In the study, we reduced the operation current of resistance random access memory (RRAM) by supercritical CO2 (SCCO2) fluids treatment. The power consumption and joule heating degradation of RRAM device can be improved greatly by SCCO2 treatment. The defect of nickel-doped silicon oxide (Ni:SiOx) was passivated effectively by the supercritical fluid technology. The current conduction of high resistant state in post-treated Ni:SiOx film was transferred to Schottky emission from Frenkel-Pool due to the passivation effect. Additionally, we can demonstrate the passivation mechanism of SCCO2 for Ni:SiOx by material analyses of x-ray photoelectron spectroscopy and Fourier transform infrared spectroscopy. [ABSTRACT FROM AUTHOR]

Published

2011

2. Hopping Effect of Hydrogen-Doped Silicon Oxide Insert RRAM by Supercritical CO2 Fluid Treatment.

Author

Chang, Kuan-Chang, Pan, Chih-Hung, Chang, Ting-Chang, Tsai, Tsung-Ming, Zhang, Rui, Lou, Jen-Chung, Young, Tai-Fa, Chen, Jung-Hui, Shih, Chih-Cheng, Chu, Tian-Jian, Chen, Jian-Yu, Su, Yu-Ting, Jiang, Jhao-Ping, Chen, Kai-Huang, Huang, Hui-Chun, Syu, Yong-En, Gan, Der-Shin, and Sze, Simon M.

Subjects

HOPPING conduction, DOPING agents (Chemistry), SILICON oxide films, NONVOLATILE random-access memory, SUPERCRITICAL carbon dioxide, CHEMICAL reactions

Abstract

In this letter, we introduced hydrogen ions into titanium metal doped into SiO2 thin film as the insulator of resistive random access memory (RRAM) by supercritical carbon dioxide (SCCO)2 fluid treatment. After treatment, low resistance state split in to two states, we find the insert RRAM, which means it has an operating polarity opposite from normal RRAM. The difference of the insert RRAM is owing to the resistive switching dominated by hydrogen ions, dissociated from OH bond, which was not by oxygen ions as usual. The current conduction mechanism of insert RRAM was hopping conduction due to the metal titanium reduction reaction through SCCO2. [ABSTRACT FROM PUBLISHER]

Published

2013

3. Low Temperature Improvement Method on Zn:SiOx Resistive Random Access Memory Devices.

Author

Chang, Kuan-Chang, Tsai, Tsung-Ming, Chang, Ting-Chang, Wu, Hsing-Hua, Chen, Kai-Huang, Chen, Jung-Hui, Young, Tai-Fa, Chu, Tian-Jian, Chen, Jian-Yu, Pan, Chih-Hung, Su, Yu-Ting, Syu, Yong-En, Tung, Cheng-Wei, Chang, Geng-Wei, Chen, Min-Chen, Huang, Hui-Chun, Tai, Ya-Hsiang, Gan, Der-Shin, Wu, Jia-Jie, and Hu, Ying

Subjects

RANDOM access memory, NONVOLATILE random-access memory, SUPERCRITICAL carbon dioxide, MECHANICAL properties of thin films, X-ray photoelectron spectroscopy, FLAT panel displays, EQUIPMENT & supplies

Abstract

To improve the resistive switching properties of the resistive random access memory (RRAM), the supercritical carbon dioxide (SCCO2) fluid is used as a low temperature treatment. In this letter, the Zn:SiOx thin films are treated by SCCO2 fluid mixed with pure water. After SCCO2 fluid treatment, the resistive switching qualities of the Zn:SiOx thin films are carried out by XPS, fourier transform infrared spectroscopy, and IV measurement. We believe that the SCCO2-treated Zn:SiOx thin film is a promising material for RRAM applications due to its compatibility with portable flat panel display. [ABSTRACT FROM PUBLISHER]

Published

2013

4. Improvement mechanism of resistance random access memory with supercritical CO2 fluid treatment.

Author

Chang, Kuan-Chang, Chen, Jung-Hui, Tsai, Tsung-Ming, Chang, Ting-Chang, Huang, Syuan-Yong, Zhang, Rui, Chen, Kai-Huang, Syu, Yong-En, Chang, Geng-Wei, Chu, Tian-Jian, Liu, Guan-Ru, Su, Yu-Ting, Chen, Min-Chen, Pan, Jhih-Hong, Liao, Kuo-Hsiao, Tai, Ya-Hsiang, Young, Tai-Fa, Sze, Simon M., Ai, Chi-Fong, and Wang, Min-Chuan

Subjects

*RANDOM access memory, *SUPERCRITICAL carbon dioxide, *SUPERCRITICAL fluids, *CHEMICAL bonds, *HYDRATION, *SILICON oxide films, *SCHOTTKY effect

Abstract

Highlights: [•] The supercritical fluid treatment can efficiently reduce the operation current of resistance random access memory. [•] The dangling bonds of Sn:SiO x thin film were cross linking by the hydration–dehydration reaction by supercritical fluid treatment. [•] The current conduction mechanism of low resistance state in post-treated RRAM device was dominated by hopping conduction. [•] The current conduction mechanism of high resistance state in post-treated RRAM device was dominated by Schottky emission. [ABSTRACT FROM AUTHOR]

Published

2014

5. Retraction notice to "Improvement Mechanism of resistance random access memory with supercritical CO2 fluid treatment" [J. Supercrit. Fluids, Volume 85, January 2014, Pages 183–189].

Author

Chang, Kuan-Chang, Chen, Jung-Hui, Tsai, Tsung-Ming, Chang, Ting-Chang, Huang, Syuan-Yong, Zhang, Rui, Chen, Kai-Huang, Syu, Yong-En, Chang, Geng-Wei, Chu, Tian-Jian, Liu, Guan-Ru, Su, Yu-Ting, Chen, Min-Chen, Pan, Jhih-Hong, Liao, Kuo-Hsiao, Tai, Ya-Hsiang, Young, Tai-Fa, Sze, Simon M., Ai, Chi-Fong, and Wang, Min-Chuan

Subjects

*RANDOM access memory, *SUPERCRITICAL fluids, *SUPERCRITICAL carbon dioxide, *FLUIDS

Published

2021