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AuthorAmer, Ahmad W.
AuthorMohamed, Seifallah M.
AuthorHafez, Ahmed M.
AuthorAlqaradawi, Siham Y.
AuthorAljaber, Amina S.
AuthorAllam, Nageh K.
Available date2016-05-16T10:55:22Z
Publication Date2014-08
Publication NameRSC Advances
ResourceScopus
CitationAmer, A.W., Mohamed, S.M., Hafez, A.M., Alqaradawi, S.Y., Aljaber, A.S., Allam, N.K. "Self-assembled zirconia nanotube arrays: Fabrication mechanism, energy consideration and optical activity" (2014) RSC Advances, 4 (68), pp. 36336-36343.
ISSN2046-2069
URIhttp://dx.doi.org/10.1039/c4ra05115g
URIhttp://hdl.handle.net/10576/4523
AbstractWe present a comprehensive roadmap for the precise control of the dimensions and optical properties of anodically fabricated zirconia nanotubes. The effects of anodization time, applied voltage, solvent composition, as well as fluoride and water content are investigated. The length of the resulting nanotubes showed a strong dependence on the concentration and mobility of F - ions, whilst O2- ion content was found to play a key role in controlling the nanotube wall thickness. A new insight into the formation of Zirconia nanotubes is introduced and discussed based on the Point Defect Model (PDM). Also, the energy consumption in the fabrication process of the nanostructured electrodes is modelled based on the involved thermodynamics and kinetic aspects. The effect of the dimensions of the nanotubes on the optical characteristics of the arrays was studied using Finite Difference Time Domain (FDTD). The results show a decrease in transmittance with increasing length and wall thickness, and decreasing pore size of the nanotubes. The reported results provide deep insight into the structure-property relationships of ZrO2 nanotubes, which will be of great help in large-scale industrial applications.
SponsorNPRP Grant no. NPRP 6-569-1-112 from the Qatar National Research Fund (a member of Qatar Foundation).
Languageen
PublisherRoyal Society of Chemistry
SubjectEnergy utilization
Fabrication
Finite difference time domain method
optical materials
Thermodynamics
nano-structured electrodes
TitleSelf-assembled zirconia nanotube arrays: Fabrication mechanism, energy consideration and optical activity
TypeArticle
Pagination36336-36343
Issue Number68
Volume Number4
dc.accessType Abstract Only


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