Morphology control of anatase TiO 2 for well-defined surface chemistry

A specific allotrope of titanium dioxide (anatase) was synthesized both with a standard thermodynamic morphology ({101}-anatase) and with a highly anisotropic morphology ({001}-anatase) dominated by the {001} facet (81%). The surface chemistry of both samples after dehydroxylation was studied by 1H...

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Veröffentlicht in:Physical chemistry chemical physics : PCCP 2018-05, Vol.20 (21), p.14362-14373
Hauptverfasser: Jeantelot, Gabriel, Ould-Chikh, Samy, Sofack-Kreutzer, Julien, Abou-Hamad, Edy, Anjum, Dalaver H, Lopatin, Sergei, Harb, Moussab, Cavallo, Luigi, Basset, Jean-Marie
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Sprache:eng
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Zusammenfassung:A specific allotrope of titanium dioxide (anatase) was synthesized both with a standard thermodynamic morphology ({101}-anatase) and with a highly anisotropic morphology ({001}-anatase) dominated by the {001} facet (81%). The surface chemistry of both samples after dehydroxylation was studied by 1H NMR and FT-IR. The influence of surface fluorides on the surface chemistry was also studied by 1H NMR, FT-IR and DFT. Full attribution of the IR spectra of anatase with dominant {001} facets could be provided based on experimental data and further confirmed by DFT. Our results showed that chemisorbed H2O molecules are still present on anatase after dehydroxylation at 350 °C, and that the type of surface hydroxyls present on the {001} facet is dependent on the presence of fluorides. They also provided general insight into the nature of the surface species on both fluorinated and fluorine-free anatase. The use of vanadium oxychloride (VOCl3) allowed the determination of the accessibility of the various OH groups spectroscopically observed.
ISSN:1463-9076
1463-9084
DOI:10.1039/C8CP01983E