Monodisperse-porous titania microspheres and their gold decorated forms as new photocatalysts for dye degradation in batch fashion

A new photocatalyst in the form of “monodisperse-porous titania microspheres” 5 μm in size, was synthesized by a developed staged-shape template hydrolysis and condensation protocol. Different from the batch-decolorization studies performed with the “non-porous titania nanoparticles”, a two-stage de...

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Bibliographic Details
Published in:Materials chemistry and physics 2018-03, Vol.207, p.359-366
Main Authors: Hamaloğlu, Kadriye Özlem, Sağ, Ebru, Bilir, Aykut, Tuncel, Ali
Format: Article
Language:English
Subjects:
Adsorption
Catalysts
Chemical synthesis
Decoloring
Decoration
Dye degradation
Dyes
Electron transfer
Gold
Gold decorated titania microspheres
Microspheres
Nanoparticles
Photocatalysis
Photocatalysts
Photodegradation
Remazol Black 5
Titania microspheres
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Summary:A new photocatalyst in the form of “monodisperse-porous titania microspheres” 5 μm in size, was synthesized by a developed staged-shape template hydrolysis and condensation protocol. Different from the batch-decolorization studies performed with the “non-porous titania nanoparticles”, a two-stage decolorization process including a fast initial dye adsorption and a relatively slower photodegradation was observed with the proposed photocatalyst. Higher initial decolorization rate was achieved due to the fast dye adsorption onto the porous titania microspheres with higher surface area with respect to “non-porous titania nanoparticles” commonly employed as photocatalyst in similar decolorization studies. Moreover, gold decorated forms of monodisperse-porous titania microspheres were also synthesized. Higher decolorization rates with respect to the bare titania microspheres were achieved with the gold decorated forms at neutral pH. Gold decorated photocatalyst synthesized using gold nanoparticles with lower size provided 50% higher decolorization rate due to their better electron transfer characteristics. [Display omitted] •Monodisperse porous titania microspheres were synthesized as a new photocatalyst.•AuNP decorated forms were obtained with AuNPs by Turkevich and Martin methods.•Photocatalytic degradation of textile dye in batch mode.•A new type of decolorization including two stages, initial adsorption and degradation.•Complete decolorization time was reduced 50% by Martin AuNP decorated form.
ISSN:0254-0584
1879-3312
DOI:10.1016/j.matchemphys.2017.12.065