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- Publisher
- Wiley
- Copyright
- Copyright © 2012 Wiley Subscription Services, Inc., A Wiley Company
- ISSN
- 0947-6539
- eISSN
- 1521-3765
- DOI
- 10.1002/chem.201202539
- pmid
- 23019011
- Publisher site
- See Article on Publisher Site
Abstract
A complex titania nanostructure of monodisperse spiky mesoporous anatase beads composed of anatase nanocrystals with diameters of less than 15 nm in the core and much larger hollow‐cone shaped spikes on the surface was fabricated using a facile solvothermal process in the presence of ammonia. This proceeded through a controllable phase transformation from an amorphous titania to a metastable amorphous titania/ammonium titanate core‐shell structure then finally to anatase titania. The size of the spiky anatase nanostructures can be increased from approximately 55×100 nm to 160×410 nm (square edge×length) by increasing the ammonia concentration used in the solvothermal treatment step from 2.2 to 17.4 wt. %. Such hollow‐cone shaped nanostructures, as revealed by HRTEM characterization, are single crystals elongated along the c axis of the tetragonal anatase titania. The resultant spiky titania beads have high surface areas of up to 112 m2g−1 and pore diameters and pore volumes that vary depending on the ammonia concentration and solvothermal treatment time. The morphological evolution and crystallization process of the spiky titania beads was investigated using SEM and XRD techniques. A metastable amorphous titania/ammonium titanate core‐shell structure evolved from the smooth amorphous precursor beads producing a “fluffy” titanate intermediate, on further heating the final spiky mesoporous titania beads were clearly observed. This titanate‐phase‐mediated approach allows control over the size of the nanocrystals in the core of the bead, as well as the anatase spikes on the surface, and thereby, tuning of the surface area and porosity of the resultant products. The spiky mesoporous titania beads have been used to prepare working electrodes for dye‐sensitized solar cells achieving a solar to electric power conversion efficiency of 10.30 %, indicating their potential for application in the photovoltaic field. Such complex titania nanostructures would have a number of other possible applications, such as photocatalysis, lithium ion batteries, and catalysis.
Journal
Chemistry - A European Journal – Wiley
Published: Oct 22, 2013
Keywords: ; ; ; ;