Oxide thin films based on ordered arrays of 1D nanostructure. A possible 
approach toward bridging material gap in catalysis

Centi, Gabriele; Passalacqua, Rosalba; Perathoner, Siglinda; Su, Dang Sheng; Weinberg, Gisela; Schlögl, Robert

doi:10.1039/b703326p

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Oxide thin films based on ordered arrays of 1D nanostructure. A possible approach toward bridging material gap in catalysis

Centi, G., Passalacqua, R., Perathoner, S., Su, D. S., Weinberg, G., & Schlögl, R. (2007). Oxide thin films based on ordered arrays of 1D nanostructure. A possible approach toward bridging material gap in catalysis. Physical Chemistry Chemical Physics, 9(35), 4930-4938. doi:10.1039/b703326p.

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Item Permalink: https://hdl.handle.net/11858/00-001M-0000-0011-0245-E Version Permalink: https://hdl.handle.net/21.11116/0000-0006-5D82-F

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Creators:
Centi, Gabriele, Author
Passalacqua, Rosalba, Author
Perathoner, Siglinda, Author
Su, Dang Sheng¹, Author
Weinberg, Gisela¹, Author
Schlögl, Robert¹, Author

Affiliations:
1Inorganic Chemistry, Fritz Haber Institute, Max Planck Society, ou_24023

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Free keywords: Bridging material gap in catalysis

Abstract: TiO₂ thin films based on ordered arrays of 1D nanostructures (nanorods, nanotubes) are proposed as suitable model materials in studies for bridging material and complexity gap in catalysis. The samples were prepared by anodic oxidation of Ti foils. By changing the preparation conditions (pH, procedure of application of the potential), different types of 1D nanostructure and different characteristics of the ordered array of these 1D nanostructures could be obtained. This allows studying the effect of nanodimension and 3D nanoarchitecture on the characteristics and reactivity of these catalysts. It is also shown that TiO₂ thin films characterized by a well-ordered array of titania nanorod behave as photonic materials, thus showing unique properties of light harvesting efficiency.

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Language(s): eng - English

Dates: Date issued: 2007

Publication Status: Issued

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Rev. Type: Peer

Identifiers: eDoc: 313239
DOI: 10.1039/b703326p

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Title: Physical Chemistry Chemical Physics

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Pages: - Volume / Issue: 9 (35) Sequence Number: - Start / End Page: 4930 - 4938 Identifier: -