Effects of Mo buffer layer on properties of Mo/Cu electrode stack

Xuyuan Li; Wei Xue; Zhinong Yu; Jianshe Xue; Xuehui Zhang; Fengchun Liu; Weisheng Yang

doi:10.13922/j.cnki.cjovst.2015.01.01

Effects of Mo buffer layer on properties of Mo/Cu electrode stack

Xuyuan Li, Wei Xue, Zhinong Yu^*, Jianshe Xue, Xuehui Zhang, Fengchun Liu, Weisheng Yang

^*此作品的通讯作者

光电学院

科研成果: 期刊稿件 › 文章 › 同行评审

1 引用（Scopus）

摘要

The Mo/Cu electrode stack, with a resistivity (2.28 μΩ·cm) much lower than that of the conventional Al/Nd alloy films, was deposited by DC magnetron sputtering on glass substrates. The impacts of the deposition conditions, including the Mo buffer layer thickness, pressure, and annealing temperature, on properties of the Mo/Cu electrode stack were evaluated. The results show that the Mo buffer layer significantly increased the adhesion at the Cu/glass interface, effectively blocked diffusion of Cu into the amorphous Si film, and markedly eliminated the bad influence of Cu diffusion on the active layer of a thin film transistor. We suggest that the use of stack structured Mo/Cu electrode, as the scan and data lines in fabrication of ultra-large sized, high resolution flat panel displays, may be a solution to the signal delay problem.

源语言	英语
页（从-至）	1-5
页数	5
期刊	Zhenkong Kexue yu Jishu Xuebao/Journal of Vacuum Science and Technology
卷	35
期	1
DOI	https://doi.org/10.13922/j.cnki.cjovst.2015.01.01
出版状态	已出版 - 1 1月 2015

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Li, X., Xue, W., Yu, Z., Xue, J., Zhang, X., Liu, F., & Yang, W. (2015). Effects of Mo buffer layer on properties of Mo/Cu electrode stack. Zhenkong Kexue yu Jishu Xuebao/Journal of Vacuum Science and Technology, 35(1), 1-5. https://doi.org/10.13922/j.cnki.cjovst.2015.01.01

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abstract = "The Mo/Cu electrode stack, with a resistivity (2.28 μΩ·cm) much lower than that of the conventional Al/Nd alloy films, was deposited by DC magnetron sputtering on glass substrates. The impacts of the deposition conditions, including the Mo buffer layer thickness, pressure, and annealing temperature, on properties of the Mo/Cu electrode stack were evaluated. The results show that the Mo buffer layer significantly increased the adhesion at the Cu/glass interface, effectively blocked diffusion of Cu into the amorphous Si film, and markedly eliminated the bad influence of Cu diffusion on the active layer of a thin film transistor. We suggest that the use of stack structured Mo/Cu electrode, as the scan and data lines in fabrication of ultra-large sized, high resolution flat panel displays, may be a solution to the signal delay problem.",

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author = "Xuyuan Li and Wei Xue and Zhinong Yu and Jianshe Xue and Xuehui Zhang and Fengchun Liu and Weisheng Yang",

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AU - Li, Xuyuan

AU - Xue, Wei

AU - Yu, Zhinong

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AU - Zhang, Xuehui

AU - Liu, Fengchun

AU - Yang, Weisheng

PY - 2015/1/1

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N2 - The Mo/Cu electrode stack, with a resistivity (2.28 μΩ·cm) much lower than that of the conventional Al/Nd alloy films, was deposited by DC magnetron sputtering on glass substrates. The impacts of the deposition conditions, including the Mo buffer layer thickness, pressure, and annealing temperature, on properties of the Mo/Cu electrode stack were evaluated. The results show that the Mo buffer layer significantly increased the adhesion at the Cu/glass interface, effectively blocked diffusion of Cu into the amorphous Si film, and markedly eliminated the bad influence of Cu diffusion on the active layer of a thin film transistor. We suggest that the use of stack structured Mo/Cu electrode, as the scan and data lines in fabrication of ultra-large sized, high resolution flat panel displays, may be a solution to the signal delay problem.

AB - The Mo/Cu electrode stack, with a resistivity (2.28 μΩ·cm) much lower than that of the conventional Al/Nd alloy films, was deposited by DC magnetron sputtering on glass substrates. The impacts of the deposition conditions, including the Mo buffer layer thickness, pressure, and annealing temperature, on properties of the Mo/Cu electrode stack were evaluated. The results show that the Mo buffer layer significantly increased the adhesion at the Cu/glass interface, effectively blocked diffusion of Cu into the amorphous Si film, and markedly eliminated the bad influence of Cu diffusion on the active layer of a thin film transistor. We suggest that the use of stack structured Mo/Cu electrode, as the scan and data lines in fabrication of ultra-large sized, high resolution flat panel displays, may be a solution to the signal delay problem.

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Effects of Mo buffer layer on properties of Mo/Cu electrode stack

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