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Photoresist ashing technology using N-2/O-2 ferrite-core ICP in the dual damascene process

Authors
Kim, Hyoun WooMyung, Ju HyunLee, Jong WooKim, Hyung-SunKim, KeehoJang, Jeong-YeolYoon, Tae-HoKim, Sung KyeongChoi, Dae-KyuChung, Chin-WookYeom, Geun YoungMyoung, Jae-MinKim, Hyoung-June
Issue Date
Aug-2006
Publisher
Kluwer Academic Publishers
Citation
Journal of Materials Science, v.41, no.15, pp 5040 - 5042
Pages
3
Indexed
SCIE
SCOPUS
Journal Title
Journal of Materials Science
Volume
41
Number
15
Start Page
5040
End Page
5042
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/181151
DOI
10.1007/s10853-006-0132-6
ISSN
0022-2461
1573-4803
Abstract
The characteristics of the photoresist (PR) ashing process with respect to the dual damascene structure in its low-k materials scheme were investigated. The O2 plasma used in the conventional PR ashing oxidizes low-k material and makes an SiO2-like layer, which causes the increase of the dielectric constant and the leakage current. The oxygen contributes to damaging the low-k material by breaking the Si-CH3 and C-H bonds and thus by changing the low-k dielectric layer to the SiO2-like material, which can be easily removed by the HF solution. The optimized condition for high PR ashing rate and low ashing damage was achieved with the help of O2/(N2 + O2) gas flow ratio of 0.1. It was observed that the ashing process removes both PR on top of the structure and inside the via hole.
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