Cooperative surface-activation strategy for low-temperature Cu/SiO2 hybrid bonding

2022 IEEE International Conference on Integrated Circuits, Technologies and Applications (ICTA) Pub Date : 2022-10-28 DOI:10.1109/ICTA56932.2022.9963057

Qiushi Kang, Ge Li, F. Niu, Chenxi Wang

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Abstract

Cu/SiO2 hybrid bonding is a potent tool to effectively mitigate data-movement issues within von Neumann architecture due to the shortening of the distance between the processor and the memory unit. To protect stacked chip performance, the realization of hybrid bonding at low temperatures (<260°C) is paramount. The essence of low-temperature hybrid bonding lies in the construction of desirable chemical structures on Cu and SiO2 surfaces. Therefore, this paper presents two types of feasible surface-activation strategies to achieve selective/non-selective hydrophilization of the Cu/SiO2 surface. Regardless of activation strategy, the Cu-Cu interface with sufficient grain growth and seamless amorphous SiO2-SiO2 interface structure were obtained at 200 °C. Moreover, the non-selective hydrophilization of Cu/SiO2 surface based on Ar/O2→NH4OH activation realized interfacial layer-free SiO2-SiO2 interface, which can provide more reliable mechanical support for next-generation data-centric applications.

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低温Cu/SiO2杂化键合的协同表面活化策略

由于缩短了处理器和存储单元之间的距离，Cu/SiO2混合键合是有效缓解von Neumann架构中数据移动问题的有效工具。为了保护堆叠芯片的性能，在低温(<260°C)下实现混合键合是至关重要的。低温杂化键合的本质在于在Cu和SiO2表面构建理想的化学结构。因此，本文提出了两种可行的表面活化策略，以实现Cu/SiO2表面的选择性/非选择性亲水性。无论活化策略如何，在200℃下均可获得晶粒生长充分的Cu-Cu界面和无缝的非晶SiO2-SiO2界面结构。此外，基于Ar/O2→NH4OH活化的Cu/SiO2表面非选择性亲水性实现了无界面层SiO2-SiO2界面，可为下一代数据中心应用提供更可靠的机械支持。

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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2022 IEEE International Conference on Integrated Circuits, Technologies and Applications (ICTA)

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