Title :
Highly reliable molecular-pore-stacking (MPS)/Cu interconnects using novel post-etching treatment (PET) for 28 nm-node and beyond
Author :
Oshida, D. ; Kume, I. ; Kunishima, H. ; Tsuchiya, H. ; Katsuyama, H. ; Ueki, M. ; Iguchi, M. ; Yokogawa, S. ; Inoue, N. ; Oda, N. ; Sakurai, M.
Author_Institution :
Renesas Electron. Corp., Sagamihara, Japan
Abstract :
Effects of post-etching treatment (PET) in trench patterning and re-sputtering in barrier metal sputtering on low-k/Cu interconnects were investigated for the low-k of Molecular Pore Stacking (MPS). Optimized combination of PET and re-sputtering reduces wiring capacitance by 5% due to well controlled profile, resulted from hardening effect of the exposed MPS at the trench bottom. The developed process sequence achieves 10 times loger EM lifetime and eliminates early failure mode in the TDDB test. Thus, the novel process, featuring PET and re-sputtering, contributes to highly reliability for 28 nm node CMOS and beyond.
Keywords :
copper alloys; etching; semiconductor device metallisation; semiconductor device reliability; sputter deposition; Cu; barrier metal sputtering; highly reliable molecular-pore-stacking interconnects; post-etching treatment; re-sputtering; trench patterning; Capacitance; Copper; Leakage current; Positron emission tomography; Resistance; Sputtering;
Conference_Titel :
Interconnect Technology Conference and 2011 Materials for Advanced Metallization (IITC/MAM), 2011 IEEE International
Conference_Location :
Dresden
Print_ISBN :
978-1-4577-0503-8
DOI :
10.1109/IITC.2011.5940341
