Highly conformal polyimide liner deposition in high-aspect-ratio through silicon vias

Yingtao Ding; Yangyang Yan; Miao Xiong; Shiwei Wang; Qianwen Chen; Zhiming Chen

doi:10.1049/mnl.2015.0336

Highly conformal polyimide liner deposition in high-aspect-ratio through silicon vias

Yingtao Ding, Yangyang Yan, Miao Xiong, Shiwei Wang, Qianwen Chen, Zhiming Chen

集成电路与电子学院

Beijing Institute of Technology

科研成果: 期刊稿件 › 文章 › 同行评审

5 引用（Scopus）

摘要

High-uniformity polyimide liner was successfully achieved in through silicon vias with aspect ratio and density as high as 15:1 and 2.8 × 10⁵ /cm², respectively. The liner is deposited by vacuum-assisted spin-coating approach, which used vacuum treatment to fully fill the via followed by spin coating to achieve uniform liner. The uniformity along the sidewall of via is evaluated with cross-sectional scanning electron microscopy images, and the results show that the thickness along sidewall from top to bottom has an average value of 530 nm and the achieved step coverage is above 33%. This liner deposition approach is completely compatible with complementary metal-oxide- semiconductor (CMOS) processes, and exhibits excellent uniformity, demonstrating the potential of the proposed technique in future advanced three-dimensional integration applications.

源语言	英语
页（从-至）	253-255
页数	3
期刊	Micro and Nano Letters
卷	11
期	5
DOI	https://doi.org/10.1049/mnl.2015.0336
出版状态	已出版 - 1 5月 2016

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abstract = "High-uniformity polyimide liner was successfully achieved in through silicon vias with aspect ratio and density as high as 15:1 and 2.8 × 105 /cm2, respectively. The liner is deposited by vacuum-assisted spin-coating approach, which used vacuum treatment to fully fill the via followed by spin coating to achieve uniform liner. The uniformity along the sidewall of via is evaluated with cross-sectional scanning electron microscopy images, and the results show that the thickness along sidewall from top to bottom has an average value of 530 nm and the achieved step coverage is above 33%. This liner deposition approach is completely compatible with complementary metal-oxide- semiconductor (CMOS) processes, and exhibits excellent uniformity, demonstrating the potential of the proposed technique in future advanced three-dimensional integration applications.",

author = "Yingtao Ding and Yangyang Yan and Miao Xiong and Shiwei Wang and Qianwen Chen and Zhiming Chen",

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doi = "10.1049/mnl.2015.0336",

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AU - Ding, Yingtao

AU - Yan, Yangyang

AU - Xiong, Miao

AU - Wang, Shiwei

AU - Chen, Qianwen

AU - Chen, Zhiming

PY - 2016/5/1

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N2 - High-uniformity polyimide liner was successfully achieved in through silicon vias with aspect ratio and density as high as 15:1 and 2.8 × 105 /cm2, respectively. The liner is deposited by vacuum-assisted spin-coating approach, which used vacuum treatment to fully fill the via followed by spin coating to achieve uniform liner. The uniformity along the sidewall of via is evaluated with cross-sectional scanning electron microscopy images, and the results show that the thickness along sidewall from top to bottom has an average value of 530 nm and the achieved step coverage is above 33%. This liner deposition approach is completely compatible with complementary metal-oxide- semiconductor (CMOS) processes, and exhibits excellent uniformity, demonstrating the potential of the proposed technique in future advanced three-dimensional integration applications.

AB - High-uniformity polyimide liner was successfully achieved in through silicon vias with aspect ratio and density as high as 15:1 and 2.8 × 105 /cm2, respectively. The liner is deposited by vacuum-assisted spin-coating approach, which used vacuum treatment to fully fill the via followed by spin coating to achieve uniform liner. The uniformity along the sidewall of via is evaluated with cross-sectional scanning electron microscopy images, and the results show that the thickness along sidewall from top to bottom has an average value of 530 nm and the achieved step coverage is above 33%. This liner deposition approach is completely compatible with complementary metal-oxide- semiconductor (CMOS) processes, and exhibits excellent uniformity, demonstrating the potential of the proposed technique in future advanced three-dimensional integration applications.

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Highly conformal polyimide liner deposition in high-aspect-ratio through silicon vias

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