Low-temperature MEMS process using plasma activated Silicon-On-Silicon (SOS) bonding

T. Galchev, W. Welch, K. Najafi
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引用次数: 2

Abstract

This paper explores the use of dielectric barrier discharge (DBD) surface activated low-temperature wafer bonding in MEMS device fabrication. Characterization of the DBD surface treatment process is included as well as analysis of the optimal bonding conditions. A new high aspect-ratio MEMS technology based on bonding two silicon wafers with an intermediate silicon dioxide layer at 400degC is presented. This silicon-on-silicon (SOS) process requires three masks and provides several advantages compared with silicon-on-glass (SOG) and silicon-on- insulator (SOI) processes, including better dimensional and etch profile control of narrow and slender MEMS structures. This is demonstrated by fabricating a 5 mum wide 30 mm long beam. Additionally, by patterning the intermediate SiO2 insulation layer before bonding, footing is reduced without any extra processing, as compared to both SOG and SOI. All SOS process steps are CMOS compatible.
采用等离子体激活硅对硅(SOS)键合的低温MEMS工艺
本文探讨了介质阻挡放电(DBD)表面激活低温晶圆键合技术在MEMS器件制造中的应用。对DBD表面处理工艺进行了表征,并分析了最佳粘合条件。提出了一种新的高纵横比MEMS技术,该技术是基于在400℃温度下用中间二氧化硅层键合两个硅片的。这种硅上硅(SOS)工艺需要三个掩模,与玻璃上硅(SOG)和绝缘体上硅(SOI)工艺相比,具有几个优势,包括对窄和细长MEMS结构的尺寸和蚀刻轮廓控制更好。这是通过制造一个5毫米宽30毫米长的光束来证明的。此外,与SOG和SOI相比,通过在粘合前对中间SiO2绝缘层进行图案化,无需任何额外处理即可减少立脚。所有SOS工艺步骤都是CMOS兼容的。
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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