Title :
Integration and Interconnect Reliability of Warm A1 Process with CVD-A1 seed layer deposited using a novel precursor of TMAAB (trimethylarninealane borane)
Author :
Choon-Hwan Kim ; Sung-Won Lim ; Hyun-Phil Kim ; In-Cheol Ryu ; Byung-Soo Eun ; Soo-Hyun Kim ; Il-Cheol Rho ; Yong-Sun Sohn ; Hyo-Sang Kang ; Hyeong-Joon Kim
Abstract :
Al-plug process using chemical vapor deposited (CVD) Al seed layer prepared with trimethylaminealane borane (TMAAB) as a precursor lias been developed for sub-60 mn design-rule dynamic random access memory (DRAM). In terms of the precursor stability and the particle generation performance, the TMAAB is better as compared to methylpyrrolidine alane (MPA) due to the depression of (AIH3)x polymer formation which generates particle. Integration challenges of Al-plug process related to via-filling were successfully overcome and the device speed was improved compared to W-plug process. The yield and interconnect reliability comparable to W-pfug have been achieved in multi-level-metallization.
Keywords :
CVD coatings; DRAM chips; aluminium; integrated circuit interconnections; integrated circuit reliability; metallisation; organic compounds; Al; CVD-Al seed layer; DRAM; TMAAB; chemical vapor deposition; design-rule dynamic random access memory; interconnect reliability; multilevel-metallization; particle generation performance; polymer formation; precursor stability; size 60 nm; trimethylaminealane borane; warm Al process; Bonding; Chemical processes; Chemical vapor deposition; Hydrogen; Materials reliability; Polymer films; Production; Random access memory; Semiconductor device reliability; Stability;
Conference_Titel :
International Interconnect Technology Conference, IEEE 2007
Conference_Location :
Burlingame, CA
Print_ISBN :
1-4244-1069-X
Electronic_ISBN :
1-4244-1070-3
DOI :
10.1109/IITC.2007.382336
