Title :
Low resistive and highly reliable Cu dual-damascene interconnect technology using self-formed MnSixOy barrier layer
Author :
Usui, T. ; Nasu, H. ; Koike, J. ; Wada, M. ; Takahashi, S. ; Shimizu, N. ; Nishikawa, T. ; Yoshimaru, M. ; Shibata, H.
Author_Institution :
Semicond. Technol. Acad. Res. Center, Tohoku Univ., Sendai, Japan
Abstract :
Copper (Cu) dual-damascene interconnects with self-formed MnSixOy barrier layer using a copper-manganese (Cu-Mn) alloy seed layer is successfully fabricated for the first time. No delamination is found in the chemical mechanical polishing process, probably because of better adhesion strength between the MnSixOy barrier and dielectric. More than 90% yield is obtained for a 1 million via chain. Microstructure analysis by transmission electron microscopy shows that an approximately 2 nm thick and continuous MnSixOy layer is formed at the interface between Cu and dielectric of the via and trench and there is no barrier at the via bottom. This via structure without the bottom barrier provides these essential advantages: reduced via resistance; significant via-electromigration lifetime improvement due to there being no flux divergence site at the via; excellent stress-induced voiding performance.
Keywords :
chemical mechanical polishing; copper; copper alloys; electric resistance; electromigration; integrated circuit interconnections; integrated circuit metallisation; integrated circuit reliability; integrated circuit yield; manganese alloys; manganese compounds; silicon compounds; Cu; Cu-Mn; MnSixOy; chemical mechanical polishing process; copper dual-damascene interconnects; copper-manganese alloy seed layer; dielectric; flux divergence site; manganese silicide oxide; manganese silicon oxide; microstructure analysis; reliable interconnect technology; self-formed barrier layer; stress-induced voiding; via resistance; via-electromigration lifetime; yield; Adhesives; Annealing; Chemical processes; Chemical vapor deposition; Copper; Dielectrics; Manganese alloys; Materials science and technology; Slurries; Wiring;
Conference_Titel :
Interconnect Technology Conference, 2005. Proceedings of the IEEE 2005 International
Print_ISBN :
0-7803-8752-X
DOI :
10.1109/IITC.2005.1499975
