Effect of annealing atmosphere on void formation in copper interconnects : Special issue on materials-related issues for Cu interconnects used in ultra high speed large scaled integrated Si devices

S. Konishi, M. Moriyama, M. Murakami
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引用次数: 14

Abstract

In order to understand the void formation mechanism in electroplated Cu interconnects used in Si-semiconductor devices, microstructure of Cu/CuO/Cu layered films which were prepared on the Si 3 N 4 /Si substrates by the sputter-deposition technique was observed by transmission electron microscopy (TEM) and scanning ion microscopy (SIM). A high density of macro and micro voids were observed in the samples annealed in atmosphere containing hydrogen, whereas no voids were observed in the samples annealed in Ar atmosphere. TEM observation suggested that a small amount of oxygen contained in the Cu films (even a native oxide layer) formed water vapor at elevated temperatures, causing formation of the micro-voids when the samples were annealed in hydrogen atmosphere. The present result suggested that the void formation in the electroplated Cu films was induced by existence of impurities such as oxygen in the Cu films, and that the void growth was strongly enhanced by annealing in hydrogen atmosphere.
退火气氛对铜互连中空洞形成的影响:超高速大型集成硅器件用铜互连材料相关问题特刊
为了了解硅半导体器件中电镀Cu互连的空穴形成机理,采用透射电镜(TEM)和扫描离子显微镜(SIM)观察了溅射沉积技术在si3n4 /Si衬底上制备的Cu/CuO/Cu层状薄膜的微观结构。在含氢气氛中退火的样品中观察到高密度的宏观和微观空洞,而在氩气气氛中退火的样品中没有观察到空洞。透射电镜观察表明,Cu膜中含有少量的氧(甚至是天然氧化层)在高温下形成水蒸气,导致样品在氢气气氛中退火时形成微空洞。结果表明,Cu膜中存在氧等杂质,导致了Cu膜中空穴的形成,而在氢气气氛中退火能明显促进空穴的生长。
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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