In-situ Preclean Run Path Impact on Selective Cobalt Cap Deposition and Electromigration

M. Shoudy, H. Shobha, Huai Huang, S. Nguyen, Chao-Kun Hu
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Abstract

This paper will provide an in-depth study of the run path impact an in-situ thermal Hydrogen preclean performed on a Copper interconnect has on the selective Cobalt cap deposition process. A loss in selective Cobalt cap thickness was observed with a wafer order dependence which resulted in a degradation in Electromigration performance. With Electromigration lifetimes dropping due to interconnect scaling, it is important to maintain and improve the Electromigration reliability of devices as we move to smaller nodes. By altering the wafer run path through a multi-chamber process tool, we were able to recover the loss of Cobalt selective deposition and thickness.
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原位预清洁运行路径对选择性钴帽沉积和电迁移的影响
本文将深入研究在铜互连上进行原位热氢预清洁对选择性钴帽沉积过程的运行路径影响。观察到选择性钴帽厚度的损失与晶圆顺序相关,导致电迁移性能下降。由于互连扩展导致电迁移寿命下降,当我们移动到更小的节点时,保持和提高器件的电迁移可靠性非常重要。通过多腔室工艺工具改变晶圆运行路径,我们能够恢复钴选择性沉积和厚度的损失。
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