Characterization of hermetic wafer-level Cu-Sn SLID bonding

A flux-less copper-tin (Cu-Sn) solid-liquid inter-diffusion (SLID) bonding process, providing a cost-effective hermetic vacuum sealing at wafer-level, has been investigated. Observations have been made indicating that the storage time of Cu-Sn plated wafers before bonding is critical with regard to...

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Published in2012 4th Electronic System-Integration Technology Conference pp. 1 - 7
Main Authors van de Wiel, H. J., Vardoy, A-S. B., Hayes, G., Fischer, H. R., Lapadatu, A., Taklo, M. M. V.
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.09.2012
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ISBN1467346454
9781467346450
DOI10.1109/ESTC.2012.6542150

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Abstract A flux-less copper-tin (Cu-Sn) solid-liquid inter-diffusion (SLID) bonding process, providing a cost-effective hermetic vacuum sealing at wafer-level, has been investigated. Observations have been made indicating that the storage time of Cu-Sn plated wafers before bonding is critical with regard to voiding. Growth of the intermediately formed intermetallic compound (IMC), Cu 6 Sn 5 , was investigated as a possible cause. Room temperature aging of Cu-Sn plated wafers prior to bonding was performed as well as annealing of un-bonded Cu-Sn plated wafers. The presence of large Cu 6 Sn 5 and Cu 3 Sn crystallites which nearly depleted the Sn was observed by optical microscopy after annealing. If large Cu 6 Sn 5 grains from opposite contact planes meet at the bond interface, voids are predicted to be formed during the subsequent stages of liquid inter-diffusion and solidification. Implications on the Cu-Sn bonding strategy based on the results are presented.
AbstractList A flux-less copper-tin (Cu-Sn) solid-liquid inter-diffusion (SLID) bonding process, providing a cost-effective hermetic vacuum sealing at wafer-level, has been investigated. Observations have been made indicating that the storage time of Cu-Sn plated wafers before bonding is critical with regard to voiding. Growth of the intermediately formed intermetallic compound (IMC), Cu 6 Sn 5 , was investigated as a possible cause. Room temperature aging of Cu-Sn plated wafers prior to bonding was performed as well as annealing of un-bonded Cu-Sn plated wafers. The presence of large Cu 6 Sn 5 and Cu 3 Sn crystallites which nearly depleted the Sn was observed by optical microscopy after annealing. If large Cu 6 Sn 5 grains from opposite contact planes meet at the bond interface, voids are predicted to be formed during the subsequent stages of liquid inter-diffusion and solidification. Implications on the Cu-Sn bonding strategy based on the results are presented.
Author van de Wiel, H. J.
Lapadatu, A.
Vardoy, A-S. B.
Hayes, G.
Fischer, H. R.
Taklo, M. M. V.
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Snippet A flux-less copper-tin (Cu-Sn) solid-liquid inter-diffusion (SLID) bonding process, providing a cost-effective hermetic vacuum sealing at wafer-level, has been...
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Title Characterization of hermetic wafer-level Cu-Sn SLID bonding
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