用于非易失性存储器件的氮化多晶硅上沉积的高质量插补介电体

2001 International Symposium on VLSI Technology, Systems, and Applications. Proceedings of Technical Papers (Cat. No.01TH8517) Pub Date : 2001-07-01 DOI:10.1109/VTSA.2001.934503

T. Chao, W. Yang, Chun-Ming Cheng, T. Pan, T. Lei

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引用次数: 11

摘要

在本研究中，采用NH/sub 3/与RTA N/sub 2/O工艺在介电/多晶硅界面处加入氮，证明了多氧化物完整性的改善。在这些氮化多晶硅薄膜上沉积的多氧化物与在TEOS上附加N/sub 2/O致密化的多氧化物相比，具有更低的泄漏电流、更高的电击穿场、更高的电子势垒高度、更低的电子俘获率和更高的电荷击穿率。SIMS结果表明，在多氧化物/多聚-1界面处加入氮气，从而改善了电性能。通过这种方法形成的多氧化物可以实现高达19 MV/cm的高击穿场和超过20 C/cm/sup /的电荷击穿比。这一过程似乎是一个非常有吸引力的替代传统的多氧化物。

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High quality interpoly dielectrics deposited on the nitrided-polysilicon for nonvolatile memory devices

In this study, a NH/sub 3/ with RTA N/sub 2/O process to incorporate nitrogen at dielectric/polysilicon interface has demonstrated an improvement in the integrity of the polyoxide. The polyoxide deposited on these nitrided polysilicon films with the additional N/sub 2/O densification on TEOS exhibits a lower leakage current, higher electric breakdown field, higher electron barrier height, lower electron trapping rate, and much higher charge-to-breakdown than the as-deposited polyoxide. SIMS result shows the incorporation of nitrogen at the polyoxide/poly-1 interface, which improves electrical properties in return. Polyoxides formed by this method can achieve a high breakdown field up to 19 MV/cm and charge-to-breakdown more than 20 C/cm/sup 2/. This process appears to be a very attractive alternative for conventional polyoxides.

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来源期刊

2001 International Symposium on VLSI Technology, Systems, and Applications. Proceedings of Technical Papers (Cat. No.01TH8517)

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