两步制程的模对模和模对晶片的Cu-Cu键

J. Ong, K. Shie, K. Tu, Chih Chen
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引用次数: 3

摘要

由于超小、超快的计算设备符合摩尔定律,关节的规模不断缩小。铜-铜直接键合似乎是解决缩小到亚微米尺度限制的一种解决方案。此外,铜键合中的机械强度和电性能等键合质量也成为一个重要的课题。在这项研究中,我们研究了键合时间和温度对高取向纳米孪晶铜的Cu-Cu键的键合强度和抗碰撞性能的关系。另外,在真空环境下,在300℃、47MPa条件下进行第二步退火1小时后,对Cu-Cu接头进行结合强度的后退火处理。退火后的结合强度提高了3-4倍。部分开口的Cu-Cu接头在退火后重新连接。
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Two-step fabrication process for die-to-die and die-to-wafer Cu-Cu bonds
The scale of joints shrinks continuously due to super small and extremely fast computing devices consent to Moore's Law. Copper-to-copper direct bonding appears to be one of a solution to the limitation of scaling down into sub-micron scale. Moreover, bonding quality such as mechanical strength and electrical properties in copper bonding becoming an important topic. In this study, we examine the relationship of the bonding time and temperature on the bonding strength and bump resistance in Cu-Cu bonds with highly <111> oriented nanotwinned copper. In addition, the Cu-Cu joints were subjected to a post annealing process at the bonding strength after the second step annealing at 300 °C under 47MPa for 1 hour in vacuum ambient. The bonding strength increases 3–4 folds after the post annealing. Some of the open Cu-Cu joints became connected after the post-annealing process.
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