TY - JOUR
T1 - Investigation of Co Thin Film as Buffer Layer Applied to Cu/Sn Eutectic Bonding and UBM with Sn, SnCu, and SAC Solders Joints
AU - Tang, Ya Sheng
AU - Derakhshandeh, Jaber
AU - Kho, Yi Tung
AU - Chang, Yao Jen
AU - Slabbekoorn, John
AU - De Preter, Inge
AU - Vanstreels, Kris
AU - Rebibis, Kenneth June
AU - Beyne, Eric
AU - Chen, Kuan-Neng
PY - 2017/11/1
Y1 - 2017/11/1
N2 - The demand of small-feature-size, high-performance, and dense I/O density applications promotes the development of fine-pitch vertical interconnects for 3-D integration where microbumps are fabricated with Cu through-silicon via and under-bump metallization. Small dimension Cu/Sn bonding has to be developed to address the needs of increasing I/O density and shrinking pitch and size for future applications. For fine-pitch microbumps, it is important to select right UBM and solder materials to obtain lower UBM consumption, which means lower intermetallic compound (IMC) thickness. To find the best binary system material for fine-pitch microbumps with a different annealing temperature and time, we investigate the interfacial reaction and intermetallic compound morphologies of Co UBM with Sn, SnCu, and SAC solders. A thin, uniform, and single-phase IMC between solder and UBM facilitates finer pitch and more reliable microbumps development; the higher activation energies imply longer solder lifetime. Co, as an ultrathin buffer layer (UBL), is also used in Cu/Sn bonding. A comparison between Cu-Sn bonding with and without UBL is conducted. From this study, Co as UBL and UBM is explored and could be applied in semiconductor applications.
AB - The demand of small-feature-size, high-performance, and dense I/O density applications promotes the development of fine-pitch vertical interconnects for 3-D integration where microbumps are fabricated with Cu through-silicon via and under-bump metallization. Small dimension Cu/Sn bonding has to be developed to address the needs of increasing I/O density and shrinking pitch and size for future applications. For fine-pitch microbumps, it is important to select right UBM and solder materials to obtain lower UBM consumption, which means lower intermetallic compound (IMC) thickness. To find the best binary system material for fine-pitch microbumps with a different annealing temperature and time, we investigate the interfacial reaction and intermetallic compound morphologies of Co UBM with Sn, SnCu, and SAC solders. A thin, uniform, and single-phase IMC between solder and UBM facilitates finer pitch and more reliable microbumps development; the higher activation energies imply longer solder lifetime. Co, as an ultrathin buffer layer (UBL), is also used in Cu/Sn bonding. A comparison between Cu-Sn bonding with and without UBL is conducted. From this study, Co as UBL and UBM is explored and could be applied in semiconductor applications.
KW - 3-D integration
KW - binary solders
KW - fine-pitch microbumps
KW - ultrathin buffer layer (UBL)
KW - under-bump metallization (UBM)
UR - http://www.scopus.com/inward/record.url?scp=85029174276&partnerID=8YFLogxK
U2 - 10.1109/TCPMT.2017.2739755
DO - 10.1109/TCPMT.2017.2739755
M3 - Article
AN - SCOPUS:85029174276
SN - 2156-3950
VL - 7
SP - 1899
EP - 1905
JO - IEEE Transactions on Components, Packaging and Manufacturing Technology
JF - IEEE Transactions on Components, Packaging and Manufacturing Technology
IS - 11
M1 - 8024028
ER -