Self-ordering dual-layered honeycomb nanotubular titania: a study in formation mechanisms

A new method for creating a honeycomb morphology of TiO 2 nanotubular arrays has been proposed using a two-step anodization process. The first anodization step utilizes fluoride containing ethylene glycol as an electrolyte (EG-solution). The anodic oxide formed during the first anodization step was...

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Bibliographic Details
Published in:RSC advances 2016-01, Vol.6 (15), p.11991-122
Main Authors: Sitler, S. J, Raja, K. S
Format: Article
Language:English
Subjects:
Anodizing
Fluorides
Formations
Honeycomb
Honeycomb construction
Morphology
Nanostructure
Titanium dioxide
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Summary:A new method for creating a honeycomb morphology of TiO 2 nanotubular arrays has been proposed using a two-step anodization process. The first anodization step utilizes fluoride containing ethylene glycol as an electrolyte (EG-solution). The anodic oxide formed during the first anodization step was removed to expose hemispherical nanoindentations created on the substrate. These nanoimprints acted as templates for honeycomb morphology during the second step of anodization that was carried out in fluoride containing phosphoric acid solution (PA-solution). Several small diameter nanotubes were grown in each honeycomb cell during the second anodization step. The formation of such honeycomb morphology required a threshold concentration of Ti 4+ in the anodization electrolyte. Below the threshold Ti 4+ concentration (4 × 10 −3 M in this investigation), a good honeycomb morphology was not observed. The formation mechanism proposed is based on weakly linear surface perturbation theory aided by compressive growth stresses and a decrease in surface energy due to the presence of [TiF 6 ] 2− species. A model for the development of a novel self-ordering honeycomb morphology of TiO 2 is presented using a unique anodization process.
ISSN:2046-2069
2046-2069
DOI:10.1039/c5ra24667a