Title :
32 nm node Ultralow-k(k=2.1)/Cu Damascene Multilevel Interconnect using High-Porosity (50 %) High-Modulus (9 GPa) Self-Assembled Porous Silica
Author :
Chikaki, S. ; Kinoshita, Keizo ; Nakayama, T. ; Kohmura, K. ; Tanaka, H. ; Hirakawa, M. ; Soda, E. ; Seino, Y. ; Hata, N. ; Kikkawa, T. ; Saito, S.
Author_Institution :
Semicond. Leading Edge Technol., Inc. (Selete), Tsukuba
Abstract :
Feasibility for 32 nm node interconnect is depended on porous dielectric process technology. Self-assembled porous silica as a recent highest porosity material (50%) was successfully introduced into 200 nm pitch low-k/Cu damascene. The key technologies obtained in this work were novel rapid silylation hardening process with low temperature adsorption followed by rapid annealing, and reliable pore management at trench sidewall to introduce highly porous material to the low-k/Cu integration process. Performances of these technologies were confirmed to be extendible to 32 nm node, 100 nm pitch interconnects.
Keywords :
adsorption; annealing; copper; dielectric materials; elastic moduli; integrated circuit interconnections; large scale integration; organic compounds; porous materials; self-assembly; silicon compounds; Cu; LSI chip; SiO2; high-modulus material; high-porosity material; low temperature adsorption; porous dielectric process technology; rapid annealing; rapid silylation hardening process; self-assembled porous silica; size 32 nm; ultralow-k damascene multilevel interconnect; Annealing; Chemical industry; Chemical processes; Chemical technology; Dielectric materials; Etching; Lead compounds; Materials science and technology; Silicon compounds; Wiring;
Conference_Titel :
Electron Devices Meeting, 2007. IEDM 2007. IEEE International
Conference_Location :
Washington, DC
Print_ISBN :
978-1-4244-1507-6
Electronic_ISBN :
978-1-4244-1508-3
DOI :
10.1109/IEDM.2007.4419115
