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Molecular Simulation Volume 43, 2017 - Issue 13-16: Proceedings of the 4th International Conference on Molecular Simulation
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Articles

Effect of water molecules on nanoscale wetting behaviour of molecular ethanol on hydroxylated SiO2 substrate

Xuechuan NieDivision of Interfacial Water and Key Laboratory of Interfacial Physics and Technology, Shanghai Institute of Applied Physics, Chinese Academy of Sciences, Shanghai, China;University of Chinese Academy of Sciences, Beijing, China
,
Jige ChenDivision of Interfacial Water and Key Laboratory of Interfacial Physics and Technology, Shanghai Institute of Applied Physics, Chinese Academy of Sciences, Shanghai, China
,
Nan ShengDivision of Interfacial Water and Key Laboratory of Interfacial Physics and Technology, Shanghai Institute of Applied Physics, Chinese Academy of Sciences, Shanghai, China
,
Li ZengCollege of Physics and Electronic Engineering, Guangxi Teachers Education University, Nanning, China
,
Haijun YangDivision of Interfacial Water and Key Laboratory of Interfacial Physics and Technology, Shanghai Institute of Applied Physics, Chinese Academy of Sciences, Shanghai, China
&
Chunlei WangDivision of Interfacial Water and Key Laboratory of Interfacial Physics and Technology, Shanghai Institute of Applied Physics, Chinese Academy of Sciences, Shanghai, ChinaCorrespondence[email protected]
Pages 1377-1384 | Received 17 Feb 2017, Accepted 05 Jul 2017, Published online: 18 Jul 2017
 
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Abstract

The wettability property of silica (SiO2) substrate by the ethanol molecules may play important roles in nanomedicine and nanomaterials fabrication. In this paper, by molecular dynamics (MD) simulations, we show that ethanol molecules can form an ordered monolayer on hydroxylated β-cristobalite SiO2 (1 1 1) substrate, therefore an ethanol droplet can form on this ordered monolayer. We found that water molecules could affect the formation of ethanol monolayer on SiO2 surface when the amount of water molecules is large, thus regulates the wetting transformation of ethanol molecules. The absorbed water molecules would disrupt the ordered ethanol monolayer and the ethanol molecules could not form the droplet.

Acknowledgments

We gratefully acknowledge valuable discussions with Prof. Haiping Fang.

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