Submit Manuscript  

Article Details


Simulations and Analysis of Titanium Dioxide Nanotubes (Rutile (110) and Anatase (101))

[ Vol. 6 , Issue. 1 ]

Author(s):

Gustavo O. Silva, Jose D. Santos*, João B.L. Martins, Carlton A. Taft and Elson Longo   Pages 10 - 21 ( 12 )

Abstract:


We have generated models of nanotubes by selecting atoms from the unit cells of TiO2 crystals (rutile and anatase) in specific planes, i.e., the plane (101) for anatse and the plane (110) for rutile. Using a programming language created in shell bash we designed clusters of titanium dioxide nanotubes with different lengths and diameters. The structures generated were submitted to quantum mechanical calculations using the semi-empirical PM7 method, HF and DFT methods with the 6-31g and 6-311G basis sets. The clusters were optimized and the one with the most stable structures were those with the largest diameters. The best models, i.e. the most stable structures, were the anatase nanotube of molecular formula [[(TiO2)4]20]3 and the rutile nanotube with molecular formula [[(TiO2)2]13]3. Comparing the relative free energies of the structures with the same number of atoms we concluded that the anatase nanotubes had a greater stability in comparison with the rutile nanotubes. Calculations of the DFT energy gaps yields values between 2.0 and 2.5 eV, characteristic of semiconductors and in agreement with experiment.

Keywords:

DFT, HF, graphene, nanotubes, PM7, TiO2.

Affiliation:

Universidade Estadual de Goiás, UEG, UnUCET, Anápolis/GO, Brazil.



Read Full-Text article