Silicon carbide wafer bonding by modified surface activated bonding method

Tadatomo Suga; Fengwen Mu; Masahisa Fujino; Yoshikazu Takahashi; Haruo Nakazawa; Kenichi Iguchi

doi:10.7567/JJAP.54.030214

Silicon carbide wafer bonding by modified surface activated bonding method

Tadatomo Suga^*, Fengwen Mu, Masahisa Fujino, Yoshikazu Takahashi, Haruo Nakazawa, Kenichi Iguchi

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

42 Citations (Scopus)

Abstract

4H-SiC wafer bonding has been achieved by the modified surface activated bonding (SAB) method without any chemical-clean treatment and high temperature annealing. Strong bonding between the SiC wafers with tensile strength greater than 32 MPa was demonstrated at room temperature under 5 kN force for 300 s. Almost the entire wafer has been bonded very well except a small peripheral region and few voids. The interface structure was analyzed to verify the bonding mechanism. It was found an amorphous layer existed as an intermediate layer at the interface. After annealing at 1273K in vacuum for 1 h, the bonding tensile strength was still higher than 32MPa. The interface changes after annealing were also studied. The results show that the thickness of the amorphous layer was reduced to half after annealing.

Original language	English
Article number	030214
Journal	Japanese journal of applied physics
Volume	54
Issue number	3
DOIs	https://doi.org/10.7567/JJAP.54.030214
Publication status	Published - 2015 Mar 1
Externally published	Yes

ASJC Scopus subject areas

Engineering(all)
Physics and Astronomy(all)

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title = "Silicon carbide wafer bonding by modified surface activated bonding method",

abstract = "4H-SiC wafer bonding has been achieved by the modified surface activated bonding (SAB) method without any chemical-clean treatment and high temperature annealing. Strong bonding between the SiC wafers with tensile strength greater than 32 MPa was demonstrated at room temperature under 5 kN force for 300 s. Almost the entire wafer has been bonded very well except a small peripheral region and few voids. The interface structure was analyzed to verify the bonding mechanism. It was found an amorphous layer existed as an intermediate layer at the interface. After annealing at 1273K in vacuum for 1 h, the bonding tensile strength was still higher than 32MPa. The interface changes after annealing were also studied. The results show that the thickness of the amorphous layer was reduced to half after annealing.",

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T1 - Silicon carbide wafer bonding by modified surface activated bonding method

AU - Suga, Tadatomo

AU - Mu, Fengwen

AU - Fujino, Masahisa

AU - Takahashi, Yoshikazu

AU - Nakazawa, Haruo

AU - Iguchi, Kenichi

PY - 2015/3/1

Y1 - 2015/3/1

N2 - 4H-SiC wafer bonding has been achieved by the modified surface activated bonding (SAB) method without any chemical-clean treatment and high temperature annealing. Strong bonding between the SiC wafers with tensile strength greater than 32 MPa was demonstrated at room temperature under 5 kN force for 300 s. Almost the entire wafer has been bonded very well except a small peripheral region and few voids. The interface structure was analyzed to verify the bonding mechanism. It was found an amorphous layer existed as an intermediate layer at the interface. After annealing at 1273K in vacuum for 1 h, the bonding tensile strength was still higher than 32MPa. The interface changes after annealing were also studied. The results show that the thickness of the amorphous layer was reduced to half after annealing.

AB - 4H-SiC wafer bonding has been achieved by the modified surface activated bonding (SAB) method without any chemical-clean treatment and high temperature annealing. Strong bonding between the SiC wafers with tensile strength greater than 32 MPa was demonstrated at room temperature under 5 kN force for 300 s. Almost the entire wafer has been bonded very well except a small peripheral region and few voids. The interface structure was analyzed to verify the bonding mechanism. It was found an amorphous layer existed as an intermediate layer at the interface. After annealing at 1273K in vacuum for 1 h, the bonding tensile strength was still higher than 32MPa. The interface changes after annealing were also studied. The results show that the thickness of the amorphous layer was reduced to half after annealing.

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Silicon carbide wafer bonding by modified surface activated bonding method

Abstract

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