Impact of polyimide liner on high-aspect-ratio through-silicon-vias (TSVs): electrical characteristics and copper protrusion

Shiwei Wang; Yangyang Yan; Zhiqiang Cheng; Zhiming Chen; Yingtao Ding

doi:10.1007/s00542-016-3243-2

Impact of polyimide liner on high-aspect-ratio through-silicon-vias (TSVs): electrical characteristics and copper protrusion

Shiwei Wang, Yangyang Yan, Zhiqiang Cheng, Zhiming Chen^*, Yingtao Ding

^*Corresponding author for this work

School of Integrated Circuits and Electronics

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

Through silicon vias (TSVs) are key components in three dimensional integrated circuits. The performance of TSVs insulation layer strongly affects electrical characteristics and thermal mechanical reliability of TSVs. This paper reports impact of polyimide liner as TSVs sidewall insulation on electrical characteristics and copper protrusion of high-aspect-ratio TSVs. The strategy of polyimide liner based via-last 3D integration are described in detail for future application. Electrical characteristics including leakage current and capacitance–voltage characteristics indicate excellent insulation ability (~10⁻¹² A at 20 V) of polyimide liner and low parasitic capacitance density (~10⁻⁹ F/cm²) of the TSVs. The impact of polyimide liner on copper protrusion (~668 nm at 350 °C) is investigated under various annealing temperatures. The results show protrusion height increases with annealing temperature.

Original language	English
Pages (from-to)	3757-3764
Number of pages	8
Journal	Microsystem Technologies
Volume	23
Issue number	8
DOIs	https://doi.org/10.1007/s00542-016-3243-2
Publication status	Published - 1 Aug 2017

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title = "Impact of polyimide liner on high-aspect-ratio through-silicon-vias (TSVs): electrical characteristics and copper protrusion",

abstract = "Through silicon vias (TSVs) are key components in three dimensional integrated circuits. The performance of TSVs insulation layer strongly affects electrical characteristics and thermal mechanical reliability of TSVs. This paper reports impact of polyimide liner as TSVs sidewall insulation on electrical characteristics and copper protrusion of high-aspect-ratio TSVs. The strategy of polyimide liner based via-last 3D integration are described in detail for future application. Electrical characteristics including leakage current and capacitance–voltage characteristics indicate excellent insulation ability (~10−12 A at 20 V) of polyimide liner and low parasitic capacitance density (~10−9 F/cm2) of the TSVs. The impact of polyimide liner on copper protrusion (~668 nm at 350 °C) is investigated under various annealing temperatures. The results show protrusion height increases with annealing temperature.",

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T2 - electrical characteristics and copper protrusion

AU - Wang, Shiwei

AU - Yan, Yangyang

AU - Cheng, Zhiqiang

AU - Chen, Zhiming

AU - Ding, Yingtao

PY - 2017/8/1

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N2 - Through silicon vias (TSVs) are key components in three dimensional integrated circuits. The performance of TSVs insulation layer strongly affects electrical characteristics and thermal mechanical reliability of TSVs. This paper reports impact of polyimide liner as TSVs sidewall insulation on electrical characteristics and copper protrusion of high-aspect-ratio TSVs. The strategy of polyimide liner based via-last 3D integration are described in detail for future application. Electrical characteristics including leakage current and capacitance–voltage characteristics indicate excellent insulation ability (~10−12 A at 20 V) of polyimide liner and low parasitic capacitance density (~10−9 F/cm2) of the TSVs. The impact of polyimide liner on copper protrusion (~668 nm at 350 °C) is investigated under various annealing temperatures. The results show protrusion height increases with annealing temperature.

AB - Through silicon vias (TSVs) are key components in three dimensional integrated circuits. The performance of TSVs insulation layer strongly affects electrical characteristics and thermal mechanical reliability of TSVs. This paper reports impact of polyimide liner as TSVs sidewall insulation on electrical characteristics and copper protrusion of high-aspect-ratio TSVs. The strategy of polyimide liner based via-last 3D integration are described in detail for future application. Electrical characteristics including leakage current and capacitance–voltage characteristics indicate excellent insulation ability (~10−12 A at 20 V) of polyimide liner and low parasitic capacitance density (~10−9 F/cm2) of the TSVs. The impact of polyimide liner on copper protrusion (~668 nm at 350 °C) is investigated under various annealing temperatures. The results show protrusion height increases with annealing temperature.

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Impact of polyimide liner on high-aspect-ratio through-silicon-vias (TSVs): electrical characteristics and copper protrusion

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