The effect of anatase crystal orientation on the photoelectrochemical performance of anodic TiO2 nanotubes

Próspero Acevedo-Peña; Federico González; Gonzalo González; Ignacio González

doi:10.1039/c4cp03930k

The effect of anatase crystal orientation on the photoelectrochemical performance of anodic TiO₂ nanotubes

Próspero Acevedo-Peña, Federico González, Gonzalo González, Ignacio González

Research output: Contribution to journal › Article › peer-review

28 Scopus citations

Abstract

TiO₂ nanotube films were prepared by anodizing Ti plates in ethylene glycol based electrolytes containing variable concentrations of ammonium fluoride and water. The morphology, optical and semiconducting properties, as well as the composition of TiO₂ films were shown to be dependent on the anodizing bath composition. Among different film properties, only the preferential orientation of anatase crystals, quantified with the texture coefficient of the (004) plane, TC₍₀₀₄₎, showed the same dependence of photoelectrochemical performance on the electrolyte composition. The increased value of TC₍₀₀₄₎ was related to anatase crystals piling up in the [001] direction (normal to the plane of the Ti substrate), forming a fiber like texture structure along the tube that facilitates the transport of photogenerated electrons toward the conducting substrate.

Original language	English
Pages (from-to)	26213-26220
Number of pages	8
Journal	Physical Chemistry Chemical Physics
Volume	16
Issue number	47
DOIs	https://doi.org/10.1039/c4cp03930k
State	Published - 13 Nov 2014
Externally published	Yes

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abstract = "TiO2 nanotube films were prepared by anodizing Ti plates in ethylene glycol based electrolytes containing variable concentrations of ammonium fluoride and water. The morphology, optical and semiconducting properties, as well as the composition of TiO2 films were shown to be dependent on the anodizing bath composition. Among different film properties, only the preferential orientation of anatase crystals, quantified with the texture coefficient of the (004) plane, TC(004), showed the same dependence of photoelectrochemical performance on the electrolyte composition. The increased value of TC(004) was related to anatase crystals piling up in the [001] direction (normal to the plane of the Ti substrate), forming a fiber like texture structure along the tube that facilitates the transport of photogenerated electrons toward the conducting substrate.",

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T1 - The effect of anatase crystal orientation on the photoelectrochemical performance of anodic TiO2 nanotubes

AU - Acevedo-Peña, Próspero

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AU - González, Gonzalo

AU - González, Ignacio

PY - 2014/11/13

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N2 - TiO2 nanotube films were prepared by anodizing Ti plates in ethylene glycol based electrolytes containing variable concentrations of ammonium fluoride and water. The morphology, optical and semiconducting properties, as well as the composition of TiO2 films were shown to be dependent on the anodizing bath composition. Among different film properties, only the preferential orientation of anatase crystals, quantified with the texture coefficient of the (004) plane, TC(004), showed the same dependence of photoelectrochemical performance on the electrolyte composition. The increased value of TC(004) was related to anatase crystals piling up in the [001] direction (normal to the plane of the Ti substrate), forming a fiber like texture structure along the tube that facilitates the transport of photogenerated electrons toward the conducting substrate.

AB - TiO2 nanotube films were prepared by anodizing Ti plates in ethylene glycol based electrolytes containing variable concentrations of ammonium fluoride and water. The morphology, optical and semiconducting properties, as well as the composition of TiO2 films were shown to be dependent on the anodizing bath composition. Among different film properties, only the preferential orientation of anatase crystals, quantified with the texture coefficient of the (004) plane, TC(004), showed the same dependence of photoelectrochemical performance on the electrolyte composition. The increased value of TC(004) was related to anatase crystals piling up in the [001] direction (normal to the plane of the Ti substrate), forming a fiber like texture structure along the tube that facilitates the transport of photogenerated electrons toward the conducting substrate.

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The effect of anatase crystal orientation on the photoelectrochemical performance of anodic TiO₂ nanotubes

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