The effect of metallic impurities on the dielectric breakdown of oxides and some new ways of avoiding them

International Electron Devices Meeting 1991 [Technical Digest] Pub Date : 1991-12-08 DOI:10.1109/IEDM.1991.235421

S. Verhaverbeke, M. Meuris, Paul W. Mertens, M. Heyns, A. Philipossian, D. Gräf, A. Schnegg

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引用次数: 24

Abstract

The effect of metallic contamination on the dielectric breakdown of thermal oxide layers is investigated. Wafers were intentionally contaminated with Ca, Zn, Fe, Cu or Al. The oxidation behavior of the contaminants and their effect on the Si surface roughness were investigated and correlated with the oxide breakdown properties. It was observed that Ca interacts strongly with the Si substrate during ramp-up. This results in a large increase in the Si surface roughness and poor breakdown properties of the thermal oxide layer. Fe degrades the oxide integrity by the formation of defect spots during the oxidation and Al induces damage under the SiO/sub 2//poly-Si interface. Metals such as Cu and Zn diffuse easily in the Si substrate and, consequently, do not have a large impact on the oxide quality. Standard grade chemicals are the main source for the metallic impurities. After switching to ultrapure chemicals, the DI-water distribution system becomes the limiting factor. Some techniques to reduce the contamination and Si-surface roughening are presented.<>

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介绍了金属杂质对氧化物介电击穿的影响及避免金属杂质的新方法

研究了金属污染对热氧化层介电击穿的影响。在硅片上故意污染Ca、Zn、Fe、Cu或Al。研究了污染物的氧化行为及其对Si表面粗糙度的影响，并将其与氧化物击穿特性相关联。结果表明，在加速过程中，Ca与Si衬底发生了强烈的相互作用。这导致硅表面粗糙度大幅增加，热氧化层的击穿性能差。Fe在氧化过程中形成缺陷点，降低了氧化物的完整性，Al在SiO/sub //多晶硅界面下引起损伤。像Cu和Zn这样的金属很容易在Si衬底中扩散，因此对氧化物的质量没有太大的影响。标准级化学品是金属杂质的主要来源。在转向超纯化学品后，di水分配系统成为限制因素。提出了一些减少污染和硅表面粗化的技术。

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International Electron Devices Meeting 1991 [Technical Digest]

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