Please use this identifier to cite or link to this item: http://www.repository.rmutt.ac.th/xmlui/handle/123456789/1090
Title: Effect of calcination temperature on structural and photocatalyst properties of nanofibers prepared from low-cost natural ilmenite mineral by simple hydrothermal method
Authors: Athapon Simpraditpan
Thanakorn Wirunmongkol
Wisanu Pecharapa
Keywords: Composites
Nanostructures
Chemical synthesisCatalytic properties
Issue Date: 2013
Publisher: Rajamangala University of Technology Thanyaburi. Faculty of engineering
Abstract: Titanate nanofibers were synthesized via the hydrothermal method (120°C for 72 h) using natural ilmenite mineral (FeTiO[supscript3]) as the starting material. The samples were characterized by X-ray diffraction (XRD), X-ray fluorescent (XRF), scanning electron microscopy (SEM), transmission electron microscopy (TEM), and Brunauer-Emmett-Teller (BET) for specific surface area. The nanofibers were 20-90 nm in diameter and 2-7 ILm in length, The as-synthesized nanofibers calcined at 300-400 degree Celsius showed TiO[supscript2] (B) whereas the nanofibers calcined at 500 degree Celsius revealed a mixture of two phases of TiOz[supscript2] (B) and anatase. The nanofibers calcined at high temperature of 600-1000 O( showed a mixture of tri-crystalline of anatase, rutile, and Fez03. The rutile phase increased with increasing calcination temperature. The nanofibers calcined at 300-700 O( maintained their structure while the morphology of the nanofibers calcined at 800-1000 degree Celsius ( transformed into submicron rod-like structure. This increase of calcination temperature led to the phase transformation from thermodynamically metastable anatase to the most stable form of rutile phase. The crystallite size of prepared samples increased with increasing calcination temperature. Interestingly, with increasing calcination temperature, the absorption edge of the prepared samples shows an obvious shift to visible light region due to the change of crystallite phase and increased crystallite size. Therefore, the band gap energy of the prepared samples became narrower with increasing calcination temperature. Furthermore, the photo catalytic activity of the nanofibers calcined at 400 degree Celsius( for 2 h was found to be not merely higher than those of the commercially available TiO[supscript2] nanoparticles powders (P-25, JRC-01, and JRC(-03) but also the highest of all the samples in this study
URI: http://www.repository.rmutt.ac.th/dspace/handle/123456789/1090
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