硅对α-Ti(0 0 0 1)表面氧化反应的影响：分子动力学研究

Effect of Si on the oxidation reaction of α-Ti(0 0 0 1) surface: molecular dynamics study.

作者信息

Bhattacharya Somesh Kr, Sahara Ryoji, Ueda Kyosuke, Narushima Takayuki

机构信息

Research Center for Structural Materials, National Institute for Materials Science, Tsukuba, Japan.

Department of Materials Processing, Tohoku University, Sendai, Japan.

出版信息

Sci Technol Adv Mater. 2017 Dec 13;18(1):998-1004. doi: 10.1080/14686996.2017.1403273. eCollection 2017.

DOI:10.1080/14686996.2017.1403273

PMID:29296126

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5738634/

Abstract

We present our molecular dynamics (MD) study of the effect of Si on the oxidation of α-Ti(0001) surfaces. We varied the Si concentration in the first layer of the surface from 0 to 25 at.% and the oxygen coverage () on the surface was varied up to 1 monolayer (ML). The MD was performed at 300, 600 and 973 K. For = 0.5 ML, oxygen penetration into the slab was not observed after 16 ps of MD at 973 K while for > 0.5 ML, oxygen penetration into the Ti slab was observed even at 300 K. From Bader charge analysis, we confirmed the formation of the oxide layer on the surface of the Ti slab. At higher temperatures, the Si atoms diffused from the first layer to the interior of the slab, while the Ti atoms moved from second layer to the first layer. The pair correlation function shows the formation of a disordered Ti-O network during the initial stage of oxidation. Si was found to have a strong influence on the penetration of oxygen in the Ti slab at high temperatures.

摘要

我们展示了关于硅对α-Ti(0001)表面氧化影响的分子动力学（MD）研究。我们将表面第一层中的硅浓度从0变化到25原子百分比，并将表面的氧覆盖率（）变化至高达1单层（ML）。MD模拟在300、600和973 K下进行。对于= 0.5 ML，在973 K下进行16皮秒的MD模拟后未观察到氧渗透到平板中，而对于> 0.5 ML，即使在300 K下也观察到氧渗透到钛平板中。通过巴德电荷分析，我们证实了钛平板表面形成了氧化层。在较高温度下，硅原子从第一层扩散到平板内部，而钛原子从第二层移动到第一层。对关联函数表明在氧化初始阶段形成了无序的Ti-O网络。发现在高温下硅对氧在钛平板中的渗透有强烈影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4584/5738634/373d339aabaf/TSTA_A_1403273_UF0001_OC.jpg

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硅对α-Ti(0 0 0 1)表面氧化反应的影响：分子动力学研究

Effect of Si on the oxidation reaction of α-Ti(0 0 0 1) surface: molecular dynamics study.

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