標題: Chip-to-chip copper direct bonding in no-vacuum ambient using (111) oriented nano-twinned copper
作者: Juang, Jing Ye
Shie, Kai Cheng
Li, Yu Jin
Lin, Benson
Chang, Chia Cheng
Tu, K. N.
Chen, Chih
材料科學與工程學系
Department of Materials Science and Engineering
公開日期: 1-一月-2018
摘要: In this study, we demonstrate the chip-to-chip copper direct bonding by using (111) oriented nano-twinned copper in N-2 ambient, without vacuum. A well bonded interface in the Cu-to-Cu joint was identified by the focus ion beam (FIB) microstructure observation. The secondary electron images (SEI) showed a void-less bonding interface within the bonded Cu joint. In addition, a die shear test was conducted. The test result revealed that the Cu joint has a robust bonded Cu structure due to its high value. The shear strength is more than 100 MPa. There is nearly twice strength value higher than the traditional SnAg solder joint (64 MPa). In addition, the scanning electron microscope (SEM) image showed the joint fractured in a ductile manner. Besides, we also performed the resistance measurement by using Kelvin probes on the bonded chip-to-chip test vehicle. The result showed 4.12 m Omega in single joint resistance and 4.26 x 10(-8) Omega.cm(2) in contact resistivity. More than 30% resistance reduction has been confirmed as compared to the traditional SnAg solder joint (6.32 m Omega). Moreover, for further post annealing process on the bonded test vehicle, we can further reduce the joint resistance by the value of 2.9 m Omega. It approaches the value of bulk Cu. The evidences revealed that the Cu-to-Cu joint is superior to the traditional SnAg solder. In last, the chip-to-chip copper direct bonding by using (111) oriented nano-twinned copper in N-2 ambient was achieved.
URI: http://hdl.handle.net/11536/151031
ISSN: 2150-5934
期刊: 2018 13TH INTERNATIONAL MICROSYSTEMS, PACKAGING, ASSEMBLY AND CIRCUITS TECHNOLOGY CONFERENCE (IMPACT)
起始頁: 101
結束頁: 103
顯示於類別:會議論文