Preparation of Uniform SiO2 Insulating Layer on the Inner Wall of TSV by Thermal Oxidation

2022 International Symposium on Semiconductor Manufacturing (ISSM) Pub Date : 2022-12-12 DOI:10.1109/ISSM55802.2022.10027078

Guo Fengjie, Rang Yang, Wang Shuo, Ma Kui, Yang Fa Shun

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Abstract

SiO2 insulating layer is an indispensable part of a TSV. In the current process, the SiO2 insulating layer is commonly deposited on the inner wall of the TSV based on deep trench sputtering method. The thickness at different position (neck, middle, bottom) of the SiO2 insulating layer, deposited by deep trench sputtering, is non-uniform. In this paper, the thickness uniformity of SiO2 insulating layer prepared on the inner wall of TSV based on CVD&PVD process and thermal oxidation method is comparatively studied. The experimental results show that, based on the CVD&PVD process, the average thickness of the SiO2 insulating layer at middle and bottom position of the TSV has changed by - 54.02% and - 58.30% compared with that at the top position, respectively. Based on the thermal oxidation method, the average thickness of the SiO2 insulating layer at middle and bottom position of the TSV has changed by 1.17% and 0.26% compared with that at the top position, respectively. The thermal oxidation method can realize the SiO2 insulating layer with uniform thickness on the inner wall of TSV.

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热氧化法制备TSV内壁均匀SiO2保温层

SiO2绝缘层是TSV不可缺少的组成部分。在目前的工艺中，通常采用深沟槽溅射法在TSV的内壁上沉积SiO2绝缘层。深沟溅射法沉积的SiO2保温层在不同位置(颈部、中部、底部)厚度不均匀。本文对基于CVD&PVD法和热氧化法制备的TSV内壁SiO2保温层的厚度均匀性进行了比较研究。实验结果表明，基于CVD&PVD工艺，TSV中部和底部SiO2保温层的平均厚度分别比顶部变化了- 54.02%和- 58.30%。采用热氧化法，TSV中部和底部SiO2保温层的平均厚度较顶部分别变化了1.17%和0.26%。热氧化法可以在TSV内壁上实现厚度均匀的SiO2保温层。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 International Symposium on Semiconductor Manufacturing (ISSM)

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