Development of Cu Seed Layers in Ultra-High Aspect Ratio Through-Silicon-Vias (TSVs) with Small Diameters

Ziyue Zhang, Yingtao Ding, Lei Xiao, Ziru Cai, Baoyan Yang, Zhaohu Wu, Yuwen Su, Zhiming Chen
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引用次数: 1

Abstract

Through-silicon-vias (TSVs) with high aspect ratio are of great demand due to their advantages in high density three-dimensional (3D) integration. This paper presents a feasible and convenient process flow for fabricating insulation layer, barrier and seed layer in ultra-high aspect ratio TSVs. A conformal polyimide (PI) liner is deposited by vacuum-assisted spin coating technique. Then a uniform TiN barrier layer is fabricated using atomic layer deposition (ALD) at 270 °C. The seed layer is fabricated by sequentially applying sputtering and electroless plating of Cu. Notably, with the pre-treatment effect of sputtered Cu, the electroless plating process is able to form a continuous Cu layer in high aspect ratio vias. Dense and continuous Cu seed layers are successfully fabricated in TSVs with diameters of 3 µm and 5 µm, respectively. The aspect ratios of the TSVs are larger than 17. The minimum thickness of the Cu seed layer inside TSVs is around 100 nm, and such a continuous seed layer is beneficial to the subsequent electroplating of Cu conductor. The proposed process flow for the formation of liner, barrier and seed layer in ultra-high aspect ratio TSVs is useful for the fabrication of interconnects in heterogeneous integration of various modern electronic systems and devices.
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小直径超高纵横比通硅孔(tsv)中铜种子层的研制
高纵横比的硅通孔(tsv)由于其在高密度三维集成方面的优势而受到广泛的需求。本文提出了一种可行、简便的超高纵横比超导超导材料保温层、阻隔层和种子层制备工艺流程。采用真空辅助自旋镀膜技术制备了一种共形聚酰亚胺衬里。然后在270℃下采用原子层沉积(ALD)法制备了均匀的TiN势垒层。种子层是通过连续溅射和化学镀铜制备的。值得注意的是,在溅射Cu的预处理作用下,化学镀工艺能够在高纵横比的过孔中形成连续的Cu层。在直径分别为3µm和5µm的tsv中成功制备了致密和连续的Cu种子层。tsv的纵横比大于17。tsv内部的Cu种层厚度最小在100nm左右,这种连续的种层有利于后续的Cu导体电镀。本文提出的超高纵横比tsv衬里层、屏障层和种子层形成的工艺流程可用于各种现代电子系统和器件的异构集成互连的制造。
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Magnetically Actuated Test Method for Interfacial Fracture Reliability Assessment nSiP(System in Package) Platform for various module packaging applications IEEE 71st Electronic Components and Technology Conference [Title page] Evaluation of Low-k Integration Integrity Using Shear Testing on Sub-30 Micron Micro-Cu Pillars CoW Package Solution for Improving Thermal Characteristic of TSV-SiP for AI-Inference
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