反直觉的Ge/Si/O相互作用和Ge/Si共生能够创造出令人兴奋的新型纳米电子和纳米光子器件

C. Hsueh, T. L. Huang, K. Peng, M. Kuo, H. Lin, Pei-Wen Li
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引用次数: 0

摘要

我们已经成功地利用了Si和Ge等间隙物质浓度的多维空间,起始SiGe纳米柱的几何形状和组成,以及Si间隙(Si3N4和Si封装层)的来源,以创建新的光学和电子器件,如单电子隧道器件,波长可调光电探测器和mosfet。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Counter-intuitive Ge/Si/O interactions and Ge/Si symbiosis enable the creatation of new classes of exciting nanoelectronic and nanophotonic devices
We have successfully exploited multi-dimensional spaces of concentrations of the interstitial species, Si and Ge, geometries and compositions of the starting SiGe nano-pillar, and sources of Si interstitials (the Si3N4 and Si encapsulation layers) to create new classes of exciting optical and electronic devices such as single-electron tunneling devices, wavelength-tunable photodetectors, and MOSFETs.
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