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Novel selenium implant and segregation for reduction of effective Schottky barrier height in NiGe/n-Ge contacts

Proceedings of Technical Program of 2012 VLSI Technology, System and Application Pub Date : 2012-04-23 DOI:10.1109/VLSI-TSA.2012.6210172
Y. Tong, B. Liu, P. S. Lim, Qian Zhou, Y. Yeo
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Abstract

We report the demonstration of a new effective Schottky barrier height (ΦBn) reduction technology for NiGe/n-type Germanium (n-Ge) contacts using ion implantation of selenium (Se) or sulfur (S) followed by their segregation at the NiGe/n-Ge interface. Both Se and S are found to segregate at NiGe/n-Ge interface after germanide formation, giving ΦBn as low as ~0.1 eV. Nickel monogermanide was formed for samples annealed at 350 °C for 30 s. In addition, both Se and S implants cause surface amorphization which possibly leads to improved uniformity of NiGe thickness.
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新型硒植入和分离降低nge /n-Ge接触中有效肖特基势垒高度
我们报告了一种新的有效的肖特基势垒高度还原技术(ΦBn),该技术使用离子注入硒(Se)或硫(S),然后在NiGe/n-Ge界面上进行分离。锗化物形成后,Se和S均在nge /n-Ge界面析出,产生ΦBn低至~0.1 eV。将样品在350℃退火30 s后形成单烯亚胺镍。此外,Se和S的植入都引起了表面非晶化,这可能导致nge厚度均匀性的提高。
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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Proceedings of Technical Program of 2012 VLSI Technology, System and Application
Proceedings of Technical Program of 2012 VLSI Technology, System and Application
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