Title :
Reliability degradation impact by ultra low-k dielectrics and improvement study for BEOL process beyond 28nm technology
Author :
Fanfei Bai ; Xinghua Song
Author_Institution :
Technol. R&D, Semicond. Manuf. Int. Corp., Shanghai, China
Abstract :
As CMOS is being scaled down to 28nm node and beyond, BEOL process must use ultra low-K film as inter-metal dielectric (IMD) layers to reduce interconnection RC delay. Compared to low-K film, ultra-low K film (K≤2.5) is more porous, softer and more hydrophilic intrinsically, and easy to be damaged by process plasma, film stress, thermal and aqueous environments. The paper focuses mainly on the BEOL processes, such as etch PET, metallization, CMP, thermal treatment impact of ultra low-k dielectrics on reliability performance of electromigration (EM) and time-dependent dielectric breakdown (TDDB) or dielectric voltage breakdown (VBD). Some optimized BEOL processes with improved control of damage on porous low k materials could lead to an acceptable EM and TDDB performance.
Keywords :
CMOS integrated circuits; chemical mechanical polishing; electric breakdown; electromigration; hydrophilicity; integrated circuit interconnections; integrated circuit metallisation; low-k dielectric thin films; nanoelectronics; BEOL process; CMOS; CMP; IMD layer; PET; TDDB; VBD; aqueous environment; back end of line process; chemical mechanical polishing; complementary metal-oxide semiconductor; dielectric voltage breakdown; electromigration; film stress; hydrophilicity; interconnection RC delay; intermetal dielectric layer; metallization; process plasma; reliability degradation impact; size 28 nm; thermal environment; time-dependent dielectric breakdown; ultra low-k dielectric film; Dielectrics; Films; Materials reliability; Moisture; Nitrogen; Semiconductor device reliability; BEOL process; Reliability degradation; reliability improvement; ultra-low K film damage;
Conference_Titel :
Semiconductor Technology International Conference (CSTIC), 2015 China
Conference_Location :
Shanghai
DOI :
10.1109/CSTIC.2015.7153429
