使用介电自旋的金属前平面化

Proceedings., Sixth International IEEE VLSI Multilevel Interconnection Conference Pub Date : 1989-06-12 DOI:10.1109/VMIC.1989.78011

F. Whitwer, T. Davies, C. Lage

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引用次数: 2

摘要

在金属沉积之前，使用硅酸盐型玻璃自旋(SOG)使地形平坦化。这个应用程序选择SOG是因为它的处理简单。表面平滑能力可与流动CVD氧化物相媲美。研究发现，在干燥的氧环境中固化SOG会导致薄膜致密性差，导致其介电性能差。然而，在蒸汽环境中进行固化，导致薄膜具有与CVD氧化膜相似的介电性能。该介电介质成功应用于1.0 μ m双能级金属工艺中，器件性能没有下降。结果表明，为了在这种应用中使用，薄膜不需要完全致密化。温度/湿度测试显示，由于吸湿或薄膜分层，对设备没有异常影响。

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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Premetal planarization using spin-on-dielectric

A silicate-type spin-on-glass (SOG) was used to planarize topography prior to metal deposition. SOG was chosen for this application because of the simplicity associated with processing. The topography smoothing capability was shown to be comparable to that of flowed CVD oxide. It was found that curing the SOG in a dry oxygen ambient caused the film to densify poorly and to result in inferior dielectric properties. Performing the cure in a steam ambient, however, resulted in films with dielectric properties similar to those of CVD oxide films. This dielectric was used successfully in a 1.0- mu m double-level metal process without degrading device performance. It was shown that the film does not need to be fully densified in order to be used in this application. Temperature/humidity testing showed no anomalous effects to devices due to moisture absorption or film delamination.<>

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Proceedings., Sixth International IEEE VLSI Multilevel Interconnection Conference

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