Title :
Improving Reliability of Copper Dual-Damascene Interconnects by Impurity Doping and Interface Strengthening
Author :
Tada, Munehiro ; Abe, Mari ; Furutake, Naoya ; Ito, Fuminori ; Tonegawa, Takashi ; Sekine, Makoto ; Hayashi, Yoshihiro
Author_Institution :
NEC Corp, Sagamihara
Abstract :
Electromigration (EM)-derived void nucleation and growth in 65-nm-node dual-damascene interconnects were investigated, and the effects of impurity doping as well as copper adhesion strength to a capping-dielectric layer (CAP) are clarified. It is found that surface-reductive treatment of the copper line improves its adhesion to the SiCN-CAP, elongating the incubation time of voiding at the via bottom. An aluminum doping is effective in suppressing both the void nucleation and growth. Consequently, an aluminum-doped copper alloy with the strong copper/CAP interface improves the EM lifetime by 50 times compared to that of a conventional pure copper. These results clearly indicate that blocking migration paths of vacancies through both grain boundaries and the copper/CAP interface is essential in improving the EM reliability.
Keywords :
copper alloys; electromigration; grain boundaries; semiconductor doping; aluminum-doped copper alloy; capping-dielectric layer; copper adhesion strength; copper dual-damascene interconnects; electromigration-derived void nucleation; grain boundaries; impurity doping; interface strengthening; surface-reductive treatment; Adhesives; Aluminum; Conducting materials; Copper alloys; Doping; Electric resistance; Electromigration; Impurities; Indium tin oxide; Integrated circuit interconnections; 65-nm node; Adhesion; alloy; copper; damascene; electromigration (EM); interconnects; reliability;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2007.901265
