TY - GEN
T1 - Low-temperature, surface-compliant wafer bonding using sub-micron gold particles for wafer-level MEMS packaging
AU - Ishida, Hiroyuki
AU - Ogashiwa, Toshinori
AU - Kanehira, Yukio
AU - Ito, Shin
AU - Yazaki, Takuya
AU - Mizuno, Jun
PY - 2012/10/4
Y1 - 2012/10/4
N2 - Low-temperature wafer bonding using sub-micron gold particles was investigated. For more flexible bonding pattern deposition, wafer-level pattern transfer method has been developed to enable patterning on fragile structures such as MEMS devices. Sub-micron Au particle patterns with a width of 20 μm-60 μm and a height around 20 μm were formed on 100mm-diameter glass wafers by means of wafer-level processing using photolithography and a slurry-filling technique, and then successfully transferred onto Si wafers in ambient atmosphere at a temperature of 150°C and an applied pressure of 20 MPa-30 MPa. Finally, wafer bonding was performed at 200°C, 100 MPa and confirmed a sufficient tensile strength of 45.8 MPa. Compression deformation measurement was performed and the performance on a-few-μm surface roughness absorption was demonstrated. A feasibility of further reduction of bonding temperature has been suggested by showing sintering behavior of smaller-sized Au particles at 150°C.
AB - Low-temperature wafer bonding using sub-micron gold particles was investigated. For more flexible bonding pattern deposition, wafer-level pattern transfer method has been developed to enable patterning on fragile structures such as MEMS devices. Sub-micron Au particle patterns with a width of 20 μm-60 μm and a height around 20 μm were formed on 100mm-diameter glass wafers by means of wafer-level processing using photolithography and a slurry-filling technique, and then successfully transferred onto Si wafers in ambient atmosphere at a temperature of 150°C and an applied pressure of 20 MPa-30 MPa. Finally, wafer bonding was performed at 200°C, 100 MPa and confirmed a sufficient tensile strength of 45.8 MPa. Compression deformation measurement was performed and the performance on a-few-μm surface roughness absorption was demonstrated. A feasibility of further reduction of bonding temperature has been suggested by showing sintering behavior of smaller-sized Au particles at 150°C.
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U2 - 10.1109/ECTC.2012.6248979
DO - 10.1109/ECTC.2012.6248979
M3 - Conference contribution
AN - SCOPUS:84866865958
SN - 9781467319669
T3 - Proceedings - Electronic Components and Technology Conference
SP - 1140
EP - 1145
BT - 2012 IEEE 62nd Electronic Components and Technology Conference, ECTC 2012
T2 - 2012 IEEE 62nd Electronic Components and Technology Conference, ECTC 2012
Y2 - 29 May 2012 through 1 June 2012
ER -