Synthesis-particularly by electrochemical anodization-, growth mechanism and chemical sensing properties of pure, doped and mixed titania tubular arrays are reviewed. The first part deals on how anodization parameters affect the size, shape and morphology of titania nanotubes. In the second part fabrication of sensing devices based on titania nanotubes is presented, together with their most notable gas sensing performances. Doping largely improves conductivity and enhances gas sensing performances of TiO2 nanotubes.
TiO2 Nanotubes: Recent Advances in Synthesis and Gas Sensing Properties
V. Galstyan;E. Comini;G. Faglia;G. Sberveglieri
2013-01-01
Abstract
Synthesis-particularly by electrochemical anodization-, growth mechanism and chemical sensing properties of pure, doped and mixed titania tubular arrays are reviewed. The first part deals on how anodization parameters affect the size, shape and morphology of titania nanotubes. In the second part fabrication of sensing devices based on titania nanotubes is presented, together with their most notable gas sensing performances. Doping largely improves conductivity and enhances gas sensing performances of TiO2 nanotubes.File in questo prodotto:
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TiO2 Nanotubes Recent Advances in Synthesis and Gas Sensing Properties.pdf
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