Order of magnitude increase in photocatalytic rate for hierarchically porous anatase thin films synthesized from zinc titanate coatings

In this paper we report on the use of aerosol assisted chemical vapour deposition (AACVD) to form thin films of the zinc titanate phases using zinc acetate and titanium isopropoxide as precursors in methanol solution. Analysis by XRD and XPS found that through variation in experimental conditions we...

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Bibliographic Details
Published in:Dalton transactions : an international journal of inorganic chemistry 2017-02, Vol.46 (6), p.1975-1985
Main Authors: Platt, Nathanya J, Kaye, Karl M, Limburn, Gregory J, Cosham, Samuel D, Kulak, Alexander N, Palgrave, Robert G, Hyett, Geoffrey
Format: Article
Language:English
Subjects:
Anatase
Degradation
Photocatalysis
Synthesis
Thin films
Titanates
Titanium dioxide
Zinc
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Summary:In this paper we report on the use of aerosol assisted chemical vapour deposition (AACVD) to form thin films of the zinc titanate phases using zinc acetate and titanium isopropoxide as precursors in methanol solution. Analysis by XRD and XPS found that through variation in experimental conditions we have been able to synthesize films of zinc titanate with composition of Zn TiO or Zn Ti O , which adopt the spinel and pseudobrookite structure respectively. In addition, we have also formed hybrid films of Zn TiO with either ZnTiO or ZnO. Using a technique previously reported with powders, the mixed ZnO and Zn TiO films were treated with acid to produce porous Zn TiO which, through reduction and vapour leaching of zinc, were converted to hierarchically porous thin films of anatase TiO . This conversion was monitored by XRD. Analysis of photocatalytic activity of the hierarchically porous titania, using dye and stearic acid degradation tests, found a factor of 12 to 14 increase in rates of photocatalysis over conventional TiO thin films. Finally we are able to report a maximum formal quantum efficiency for stearic acid degradation of 1.76 Ă— 10 molecules per photon.
ISSN:1477-9226
1477-9234
DOI:10.1039/c6dt04431j