Two-dimensional modeling of the self-limiting oxidation in silicon and tungsten nanowires

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Abstract
© 2016 The Author(s) Self-limiting oxidation of nanowires has been previously described as a reaction- or diffusion-controlled process. In this letter, the concept of finite reactive region is introduced into a diffusion-controlled model, based upon which a two-dimensional cylindrical kinetics model is developed for the oxidation of silicon nanowires and is extended for tungsten. In the model, diffusivity is affected by the expansive oxidation reaction induced stress. The dependency of the oxidation upon curvature and temperature is modeled. Good agreement between the model predictions and available experimental data is obtained. The developed model serves to quantify the oxidation in two-dimensional nanostructures and is expected to facilitate their fabrication via thermal oxidation techniques.
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http://hdl.handle.net/1959.4/unsworks_44395
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https://doi.org/10.1016/j.taml.2016.08.002
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https://www.researchgate.net/publication/306273009_Two-dimensional_modeling_of_the_self-limiting_oxidation_in_silicon_and_tungsten_nanowires
Author(s)
Liu, M
; ;
Xu, Z
; ;
Gan, Y
;
Chen, CQ
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Publication Year
2016-09-01
Resource Type
Journal Article
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UNSW Faculty
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download Liu_Oxidation_of_SiNWs_and_Tungsten_NWs.pdf 587.39 KB Adobe Portable Document Format Published version
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