TiO2 Nanotube Arrays of 1000 μm Length by Anodization of Titanium Foil: Phenol Red Diffusion

Maggie Paulose,Maggie Paulose,Maggie Paulose,Maggie Paulose,Haripriya E Prakasam,Tejal A Desai,Ketul C Popat,Gopal K Mor,Tejal A Desai,Craig A Grimes,Oomman K Varghese,Gopal K Mor,Oomman K Varghese,Haripriya E Prakasam,Ketul C Popat,Craig A Grimes,Lily Peng,Tejal A Desai,Haripriya E Prakasam,Craig A Grimes,Ketul C Popat,Craig A Grimes,Gopal K Mor,Ketul C Popat,Oomman K Varghese,Oomman K Varghese,Haripriya E Prakasam,Tejal A Desai,Gopal K Mor

doi:10.1021/jp075258r

TiO2 Nanotube Arrays of 1000 μm Length by Anodization of Titanium Foil: Phenol Red Diffusion

Maggie Paulose, Maggie Paulose + Show 27 more

https://doi.org/10.1021/jp075258r

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Journal: The Journal of Physical Chemistry C	Publication Date: Sep 22, 2007
Citations: 470

Affiliation: Sentech Corporation (United States), Colorado State University, Pennsylvania State University, University of California, San Francisco

#Glancing Angle X-ray Diffraction #Self-standing Membranes #Μm In Length #Nanotube Array #Initial Application #Transmission Electron Microscopy #Aspect Ratio #Length Ratio #Thick Films #Nanotube Array Films

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We report for the first time fabrication of self-aligned hexagonally closed-packed titania nanotube arrays of over 1000 μm in length and aspect ratio ≈10 000 by potentiostatic anodization of titanium. We describe a process by which such thick nanotube array films can be transformed into self-standing, flat or cylindrical, mechanically robust, polycrystalline TiO2 membranes of precisely controlled nanoscale porosity. The self-standing membranes are characterized using Brunauer−Emmett−Teller surface area measurements, glancing angle X-ray diffraction, and transmission electron microscopy. In initial application, such membranes are used to control the diffusion of phenol red.

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TiO2 Nanotube Arrays of 1000 μm Length by Anodization of Titanium Foil: Phenol Red Diffusion