Addressing materials and process-integration issues of NiSi silicide process using impurity engineering

The Fourth International Workshop on Junction Technology, 2004. IWJT '04. Pub Date : 2004-03-15 DOI:10.1109/IWJT.2004.1306772

D. Chi, R.T.-P. Lee, S. Chua

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引用次数: 1

Abstract

As the industry approaches sub-100 nm technology nodes, the trend is to replace cobalt silicide with nickel monosilicide (NiSi) since the use of NiSi for contact metallization shows a number of technological advantages, including its line-width independent low resistivity, less Si consumption and low thermal budget for its formation, and compatibility with Si/sub 1-x/Ge/sub x/ substrate technology. However, NiSi has not been considered as a serious candidate until recently mainly due to its poor morphological/thermal stability. Recent studies have shown that the morphological/thermal stability of NiSi can be enhanced substantially through the addition of a small amount of impurities, resulting in much improved silicided shallow junction integrity. In addition to improving the morphological/thermal stability, it has also been demonstrated that the addition of certain impurities, such as Ti, effectively reduces the sensitivity of NiSi formation to surface contaminants (e.g., residual interfacial oxide). This paper will present and discuss the details of these experimental results.

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应用杂质工程技术解决NiSi硅化工艺的材料与工艺集成问题

随着工业接近100纳米以下的技术节点，趋势是用单硅化镍(NiSi)取代硅化钴，因为使用NiSi进行接触金属化显示出许多技术优势，包括其线宽无关的低电阻率，更少的Si消耗和形成的低热预算，以及与Si/sub - 1-x/Ge/sub -x/衬底技术的兼容性。然而，NiSi直到最近才被认为是一个重要的候选材料，主要是因为它的形态/热稳定性差。最近的研究表明，通过添加少量杂质，NiSi的形态/热稳定性可以大大提高，从而大大提高了硅化浅结的完整性。除了提高形态/热稳定性外，还证明添加某些杂质(如Ti)可以有效降低NiSi形成对表面污染物(如残留的界面氧化物)的敏感性。本文将介绍并讨论这些实验结果的细节。

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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The Fourth International Workshop on Junction Technology, 2004. IWJT '04.

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