纳米多孔低钾玻璃在CMP浆料环境中的加速裂纹扩展

Proceedings of the IEEE 2004 International Interconnect Technology Conference (IEEE Cat. No.04TH8729) Pub Date : 2004-06-07 DOI:10.1109/IITC.2004.1345760

E. Guyer, R. Dauskardt

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引用次数: 4

摘要

将纳米多孔低介电常数(LKD)材料集成到高密度集成电路的互连结构中已经取得了相当大的进展。然而，包含这些易碎材料的设备的可靠制造是一个重大的技术挑战，因为它们在所有级别的加工和随后的包装操作中都有很高的机械故障倾向，其中它们在腐蚀性水环境中受到机械负荷，例如化学机械平坦化(CMP)。在这里，我们证明了CMP溶液化学对纳米多孔LKD薄膜以及含有铜和LKD的光刻图图化结构的界面粘附和裂纹生长速率的显著影响。揭示了H/sub - 2/O/sub - 2/环境下加速开裂的新机理。

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Accelerated crack growth of nanoporous low-k glasses in CMP slurry environments

Considerable efforts have been directed at integrating nanoporous low dielectric constant (LKD) materials into the interconnect structures of high-density integrated circuits. The reliable fabrication of devices containing these fragile materials is, however, a significant technological challenge due to their high propensity for mechanical failure during all levels of processing and subsequent packaging operations in which they are subjected to mechanical loads in the presence of aggressive aqueous environments, such as chemical mechanical planarization (CMP). Here we demonstrate the significant effect of CMP solution chemistry on interfacial adhesion and crack growth rates in nanoporous LKD thin-films as well as lithographically patterned structures containing copper and LKDs. A new mechanism of accelerated cracking in H/sub 2/O/sub 2/ environments is revealed.

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Proceedings of the IEEE 2004 International Interconnect Technology Conference (IEEE Cat. No.04TH8729)

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