Improved Photocatalytic Activity of Polysiloxane TiO 2 Composites by Thermally Induced Nanoparticle Bulk Clustering and Dye Adsorption

Fine control of nanoparticle clustering within polymeric matrices can be tuned to enhance the physicochemical properties of the resulting composites, which are governed by the interplay of nanoparticle surface segregation and bulk clustering. To this aim, out-of-equilibrium strategies can be leverag...

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Bibliographic Details
Published in:Langmuir 2021-08, Vol.37 (34), p.10354-10365
Main Authors: Chiappara, Clara, Arrabito, Giuseppe, Ferrara, Vittorio, Scopelliti, Michelangelo, Sancataldo, Giuseppe, Vetri, Valeria, Chillura Martino, Delia Francesca, Pignataro, Bruno
Format: Article
Language:English
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Summary:Fine control of nanoparticle clustering within polymeric matrices can be tuned to enhance the physicochemical properties of the resulting composites, which are governed by the interplay of nanoparticle surface segregation and bulk clustering. To this aim, out-of-equilibrium strategies can be leveraged to program the multiscale organization of such systems. Here, we present experimental results indicating that bulk assembly of highly photoactive clusters of titanium dioxide nanoparticles within an in situ synthesized polysiloxane matrix can be thermally tuned. Remarkably, the controlled nanoparticle clustering results in improved degradation photocatalytic performances of the material under 1 sun toward methylene blue. The resulting coatings, in particular the 35 wt % TiO -loaded composites, show a photocatalytic degradation of about 80%, which was comparable to the equivalent amount of bare TiO and two-fold higher with respect to the corresponding composites not subjected to thermal treatment. These findings highlight the role of thermally induced bulk clustering in enhancing photoactive nanoparticle/polymer composite properties.
ISSN:0743-7463
1520-5827
DOI:10.1021/acs.langmuir.1c01475