Water distribution in layers of an aqueous film on the titanium dioxide surface: A molecular dynamic simulation approach

Water adsorption and wetting of titanium dioxide surface along with its structure and dynamics of liquid water molecules has recently been studied as an important subject. In the current work, the interface of water and (110) surface of titanium dioxide is analyzed based on the formation and distrib...

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Published inJournal of molecular liquids Vol. 244; pp. 291 - 300
Main Authors Hamideh Babazadeh, K., Foroutan, Masumeh
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.10.2017
Subjects
Interfacial layer
Molecular dynamics simulation
Nano droplet
Nanocrystal titanium dioxide
Water distribution
Interfacial layer
Nano droplet
Water distribution
Molecular dynamics simulation
Nanocrystal titanium dioxide
Online AccessGet full text
ISSN0167-7322
1873-3166
DOI10.1016/j.molliq.2017.09.020

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Abstract Water adsorption and wetting of titanium dioxide surface along with its structure and dynamics of liquid water molecules has recently been studied as an important subject. In the current work, the interface of water and (110) surface of titanium dioxide is analyzed based on the formation and distribution of water molecules in the first and second layer from a molecular dynamics perspective. The simulation results illustrate that the water molecules form a linear chain in the interfacial layer, also known as the first layer. As the number of water molecules increases a second layer forms while the TiO2 surface remains partially dry. Further increase results in the exchange of water molecules between first and second layers which facilitates the filling of the first layer. These results are extracted from density profiles, lifetime and number of hydrogen bonds in different layers, order parameter, mean squared displacement and, the orientation of water molecules at different distances from the surface all of which are in line with the reported quantum calculations and experimental data. •Water nanodroplets show anisotropic wetting behavior on the TiO2 substrate.•As the number of water molecules increases, nanodroplets show a different behavior.•A one dimensional chain of water molecules forms on the TiO2 surface.•A second layer of water forms on the surface as the number of molecules increase.
AbstractList Water adsorption and wetting of titanium dioxide surface along with its structure and dynamics of liquid water molecules has recently been studied as an important subject. In the current work, the interface of water and (110) surface of titanium dioxide is analyzed based on the formation and distribution of water molecules in the first and second layer from a molecular dynamics perspective. The simulation results illustrate that the water molecules form a linear chain in the interfacial layer, also known as the first layer. As the number of water molecules increases a second layer forms while the TiO2 surface remains partially dry. Further increase results in the exchange of water molecules between first and second layers which facilitates the filling of the first layer. These results are extracted from density profiles, lifetime and number of hydrogen bonds in different layers, order parameter, mean squared displacement and, the orientation of water molecules at different distances from the surface all of which are in line with the reported quantum calculations and experimental data. •Water nanodroplets show anisotropic wetting behavior on the TiO2 substrate.•As the number of water molecules increases, nanodroplets show a different behavior.•A one dimensional chain of water molecules forms on the TiO2 surface.•A second layer of water forms on the surface as the number of molecules increase.
Author Hamideh Babazadeh, K.
Foroutan, Masumeh
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Keywords Interfacial layer
Nano droplet
Water distribution
Molecular dynamics simulation
Nanocrystal titanium dioxide
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Snippet Water adsorption and wetting of titanium dioxide surface along with its structure and dynamics of liquid water molecules has recently been studied as an...
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StartPage 291
SubjectTerms Interfacial layer
Molecular dynamics simulation
Nano droplet
Nanocrystal titanium dioxide
Water distribution
Title Water distribution in layers of an aqueous film on the titanium dioxide surface: A molecular dynamic simulation approach
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