N. Lietaer, A. Summanwar, Sara Rund Herum, Leny Nazareno
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引用次数: 1
摘要
MEMS和ic的三维(3D)集成可以提高器件性能,并且通常需要通硅过孔(tsv)。目前用于微机电系统(MEMS)的TSV技术要么是完全填充过孔,要么是空心过孔。空心通孔意味着穿孔晶圆,并限制了进一步的加工选择。我们研究了干膜抗蚀剂,使光刻在穿孔晶圆上。发现所研究的抗蚀剂对硅,SiO2和铝表面具有足够的附着力。在三个表面上均可靠地实现了边长为15 μm的方形开口和边长为15 μm的方形开口的抗蚀图案。在硅表面上,可以实现边长为10 μm的方形开口和边长为7 μm的方形开口的抗蚀图案。该抗蚀剂可承受1 μm铝的湿法腐蚀、7500 Å SiO2的反应离子腐蚀(RIE)和30 μm Si的深硅腐蚀(DRIE)。已经开发并验证了未来制造具有SiO2隔离,多晶硅导体材料和铝顶部触点的DRIE蚀刻tsv的各个工艺步骤。
Dry-film resist technology for versatile TSV fabrication for MEMS, tested on blind dummy TSVs
Three-dimensional (3D) integration of MEMS and ICs enables improvements in device performance, and often requires through-silicon vias (TSVs). TSV technologies presently available for micro electromechanical systems (MEMS) either have completely filled vias or hollow vias. Hollow vias imply perforated wafers, and limit further processing options. We have investigated dry film resist which enables photolithography on perforated wafers. The investigated resist was found to have adequate adhesion to silicon, SiO2, and aluminum surfaces. Resist patterns with square openings of side length 15 μm and resist squares of side length 15 μm were reliably realized on all three investigated surfaces. On silicon surfaces, resist patterns with square openings of side length 10 μm and resist squares of side length 7 μm could be realized. The resist could withstand wet etching of 1 μm aluminum, reactive ion etching (RIE) of 7500 Å SiO2 and deep silicon etching (DRIE) of 30 μm Si. Individual process steps for the future fabrication of DRIE etched TSVs with SiO2 isolation, polysilicon conductor material and aluminum top contacts have been developed and verified.
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