A novel sacrificial layer technology based on highly selective etching of silicon-germanium in CLF3

C. Leinenbach, H. Seidel, T. Fuchs, S. Kronmüller, F. Laermer
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引用次数: 13

Abstract

This paper introduces a new sacrificial layer and etching technology for the surface-micromachining of MEMS. Poly crystalline silicon-germanium (SiGe) is used as sacrificial material in combination with poly-Si as active functional layer. Applying a new plasmaless dry etching technique based on ClF3-gas, SiGe can be etched with an extremely high selectivity of up to 5000:1 with respect to silicon. This technique opens new opportunities for enhanced design freedom, increased underetching ranges and speed, and offers full compatibility to most dielectric and metal materials, and to monolithic integration with electronic circuitry on the same chip.
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基于CLF3高选择性蚀刻硅锗的牺牲层新技术
本文介绍了一种用于MEMS表面微加工的牺牲层和蚀刻新技术。采用多晶硅锗(SiGe)作为牺牲材料,多晶硅作为活性功能层。采用一种基于clf3 -气体的新型无等离子体干蚀刻技术,SiGe的蚀刻选择性高达5000:1。该技术为增强设计自由度、增加底蚀刻范围和速度提供了新的机会,并提供了对大多数介电和金属材料的完全兼容性,以及在同一芯片上与电子电路的单片集成。
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