A Model for the Self Structuring of Nanotubes in Titanium Oxide

Author

Quintero-Torres, Rafael

Author_Institution

Centro de Fis. Aplic. y Tecnol. Avanzada, Univ. Nat. Autonoma de Mexico, Queretaro

Volume

7

Issue

3

fYear

2008

fDate

5/1/2008 12:00:00 AM

Firstpage

371

Lastpage

375

Abstract

An electrostatic model is presented to explain the closed packing observed in anodic production of nanotubes. The model is suggested by the experimental results of impedance spectroscopy performed during the growth of titanium oxide nanotubes in a polar nonaqueous electrolyte. The dynamics of the process is represented with the capacitance and the dc current. Accordingly, a combination of electrostatic and chemical activity defines the structure formation, ranging from of porous random materials to self-structured materials. In this model, the geometry of the nanostructure can be controlled with the voltage.

Keywords

capacitance; electrochemistry; electrolytes; nanotechnology; nanotubes; porous materials; titanium compounds; TiO₂; anodic production; capacitance; chemical activity; dc current; electrostatic activity; impedance spectroscopy; polar nonaqueous electrolyte; porous random materials; self-structured materials; titanium oxide nanotubes; Electrochemical processes; Electromechanical processes; Heterojunctions; Impedance; Interface phenomena; Nanotechnology; heterojunctions; impedance; interface phenomena; nanotechnology;

fLanguage

English

Journal_Title

Nanotechnology, IEEE Transactions on

Publisher

ieee

ISSN

1536-125X

Type

jour

DOI

10.1109/TNANO.2008.917781

Filename

4445007