Hybrid Bonding of Nanotwinned Copper/organic Dielectrics with Low Thermal Budget

K. Shie, Pin-Syuan He, Yu-Hao Kuo, J. Ong, K. Tu, B. Lin, Chia-Cheng Chang, Chih Chen
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引用次数: 4

Abstract

The temperature for hybrid bonding is favorably to be lower than 250 °C, and thus nanotwinned Cu (nt-Cu) and low curing temperature dielectrics were combined to achieve that. To facilitate the fabrication of highly (111)-oriented surface of nt-Cu, Cu first process was chosen. In contrast to damascene Cu process, Cu first process changed the sequences of dielectric coating and Cu electroplating processes. In this study, patterned nt-Cu was plated first, and then dielectric was added in the process before or after chemical mechanical planarization (CMP). Low-temperature polyimide (PI) and non-conductive paste (NCP) were used to conduct two kinds of processes of hybrid bonding. If PI was coated and partially cured on a patterned wafer before CMP, co-planarization of nt-Cu/PI should be done afterwards to fabricate Cu/PI structure. The Cu/PI hybrid bonding can be achieved at 200 °C for 30 min. If a patterned wafer was planarized firstly, NCP was dropped on the samples and bonding process can be carried out at 180 °C for 2 h. This process was denoted as Cu + NCP hybrid bonding. The above two methods of hybrid bonding could be achieved under 250 °C, and might be the solutions for hybrid bonding technology with low thermal budget.
低热收支纳米孪晶铜/有机介电材料的杂化键合
杂化键合的温度要低于250℃,因此采用纳米孪晶铜(nt-Cu)和低固化温度电介质相结合的方法来实现杂化键合。为了制备高(111)取向的nt-Cu表面,选择了Cu优先工艺。与damascene Cu工艺相比,Cu first工艺改变了介质涂层和Cu电镀工艺的顺序。在本研究中,先镀有图案的nt-Cu,然后在化学机械平面化(CMP)之前或之后加入介电介质。采用低温聚酰亚胺(PI)和非导电浆料(NCP)进行了两种杂化键合工艺。如果在CMP之前将PI涂覆并部分固化在图案晶圆上,则需要在CMP之后对nt-Cu/PI进行共平面化以制备Cu/PI结构。Cu/PI杂化键合可以在200℃下进行30 min。如果先将图案晶片平面化,则将NCP滴在样品上,并在180℃下进行2 h的键合过程,该过程称为Cu + NCP杂化键合。以上两种混合键合方法均可在250℃下实现,可能是低热预算混合键合技术的解决方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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