Data di Pubblicazione:
2014
Citazione:
Enhanced Photocatalytic Activity in Low-Temperature Processed Titania Mesoporous Films / Carboni, Davide; Marongiu, D; Rassu, P; Pinna, A; Amenitsch, H; Casula, M; Marcelli, A; Cibin, G; Falcaro, P; Malfatti, Luca; Innocenzi, Plinio. - In: JOURNAL OF PHYSICAL CHEMISTRY. C.. - ISSN 1932-7455. - 118:(2014), pp. 12000-12009. [10.1021/jp501653x]
Abstract:
The possibility of extending the technological
applications of photocatalytic mesoporous titania films relies
upon the capability of lowering the processing temperature
while maintaining its functional properties. Here we present a
synthesis of mesoporous titania films, which makes use of a
partially fluorinated surfactant Zonyl FS300 as a mesostructuring
agent. The photoinduced degradation activity has been
followed by FTIR spectroscopy as a function of the films’
thermal annealing, ranging from 150 up to 400 °C, by using
stearic acid as a model compound. The results have been
compared with the benchmark templating agent Pluronic F127 and highlighted a constantly higher activity of the Zonyltemplated
films, up to 50%, throughout the range of the temperatures analyzed. Raman spectroscopy indicates that Zonyl FS300
is capable of producing nanosized titania crystals at temperatures lower than Pluronic F127. This explains the different
photocatalytic response of the corresponding mesoporous thin films processed at low temperatures.
applications of photocatalytic mesoporous titania films relies
upon the capability of lowering the processing temperature
while maintaining its functional properties. Here we present a
synthesis of mesoporous titania films, which makes use of a
partially fluorinated surfactant Zonyl FS300 as a mesostructuring
agent. The photoinduced degradation activity has been
followed by FTIR spectroscopy as a function of the films’
thermal annealing, ranging from 150 up to 400 °C, by using
stearic acid as a model compound. The results have been
compared with the benchmark templating agent Pluronic F127 and highlighted a constantly higher activity of the Zonyltemplated
films, up to 50%, throughout the range of the temperatures analyzed. Raman spectroscopy indicates that Zonyl FS300
is capable of producing nanosized titania crystals at temperatures lower than Pluronic F127. This explains the different
photocatalytic response of the corresponding mesoporous thin films processed at low temperatures.
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
Titania; mesoporous films; photocatalysis
Elenco autori:
Carboni, Davide; Marongiu, D; Rassu, P; Pinna, A; Amenitsch, H; Casula, M; Marcelli, A; Cibin, G; Falcaro, P; Malfatti, Luca; Innocenzi, Plinio
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