Title :
Two-Dimensional Self-Limiting Wet Oxidation of Silicon Nanowires: Experiments and Modeling
Author :
Jiewen Fan ; Ru Huang ; Runsheng Wang ; Qiumin Xu ; Yujie Ai ; Xiaoyan Xu ; Ming Li ; Yangyuan Wang
Author_Institution :
Key Lab. of Microelectron. Devices & Circuits, Peking Univ., Beijing, China
Abstract :
In this paper, a CMOS compatible silicon nanowire (Si NW) fabrication method on bulk silicon substrate is carried out using the self-limiting oxidation (SLO) to accurately control its size and cross-sectional shape. A predictive model for the 2-D SLO of Si NWs is presented. In this model, both the reduced reaction rate and diffusivity result in the oxidation rate degradation. The orientation dependence and the deformation of silicon core and oxide shell are further discussed here. The modeling results show good agreement with the experimental data within a wide range of oxidation temperatures, oxidation time, and various initial silicon core sizes. This model provides useful process design guidelines for Si nanostructures, especially in controlling the final diameter and cross-sectional shape of Si NWs from the top-down approach.
Keywords :
CMOS integrated circuits; integrated circuit modelling; nanofabrication; nanostructured materials; nanowires; silicon; 2D SLO; CMOS compatible silicon nanowire fabrication method; Si; bulk silicon substrate; oxidation rate degradation; oxidation temperatures; oxide shell; predictive model; self-limiting oxidation; silicon core deformation; silicon nanowire cross-sectional shape; top-down approach; two-dimensional self-limiting wet oxidation; Calibration; Data models; Nanowires; Oxidation; Shape; Silicon; Stress; CMOS process; nanowire; self-limiting oxidation (SLO); shape engineering; size controlling; stress effect;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2013.2274493
