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Journal Article Dual Etch Processes of Via and Metal Paste Filling for Through Silicon Via Process
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Authors
Yong-Hyun Ham, Dong-Pyo Kim, Kun-Sik Park, Ye-Sul Jeong, Ho-Jin Yun, Kyu-Ha Baek, Kwang-Ho Kwon, Kijun Lee, Lee-Mi Do
Issue Date
2011-08
Citation
Thin Solid Films, v.519, no.20, pp.6727-6731
ISSN
0040-6090
Publisher
Elsevier
Language
English
Type
Journal Article
DOI
https://dx.doi.org/10.1016/j.tsf.2011.01.406
Abstract
We investigated the etched slope control of silicon via and the filling of the through silicon via (TSV) with nano-scale Ag paste. Patterns for a 10 μm-diameter hole and line were etched using the Bosch process in a deep reactive ion etching system (the first etching process). The diameter of via(Top) and the depth of the via were about 10.6 μm and 80 μm, respectively, with a nearly vertical profile. In sequence, the tapered via and the removal of the scallops were obtained using an inductively-coupled etching system (the second etching process). We investigated the effects of gas pressure and input power on the slope of the TSV during the second etching process. In the second etching process, as the process pressure increased from 10 to 80 mTorr, the diameter of via(Top) decreased from 13 to 12.2 μm. Meanwhile, the expansion of via(Top) increased with increasing source power from 200 to 600 W. We found that the expansions of the via (Top) size were related to the desorption of by-product and the arrival of ion flux. We achieved a smooth surface and a slope angle of about 86째 using the dual etch process. Finally, the depth of the 80 μm via was filled with nano-scale Ag paste using a vacuum-assisted filling method. © 2011 Elsevier B.V.
KSP Keywords
Ag paste, Bosch process, By-products(DBPs), Deep reactive ion etching, Etching process, Filling method, Gas pressure, Inductively coupled, Input power, Nano-Scale, Process pressure