Please use this identifier to cite or link to this item: http://hdl.handle.net/2440/117596
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Type: Journal article
Title: Below room temperature: how the photocatalytic activity of dense and mesoporous TiO2 coatings is affected
Author: Cedillo-González, E.
Riccò, R.
Costacurta, S.
Siligardi, C.
Falcaro, P.
Citation: Applied Surface Science, 2018; 435:769-775
Publisher: Elsevier
Issue Date: 2018
ISSN: 0169-4332
1873-5584
Statement of
Responsibility: 
Erika Iveth Cedillo-González, Raffaele Riccò, Stefano Costacurta, Cristina Siligardia, Paolo Falcaro
Abstract: Different parameters such as morphology, porosity, crystalline phase or doping agents affect the self-cleaning performance of photocatalytic TiO2-based coatings. However, also environmental conditions have been found to play a major role on the photocatalytic self-cleaning property. Substrate temperature is a significant environmental variable that can drastically affect this process. This variable becomes of great importance especially for outdoor applications: many self-cleaning photocatalytic materials have been designed to be exposed to outdoor environments and consequently, can be exposed to variable temperatures depending on the season of the year and the typical weather of the geographical zone. Thus, understanding the influence of the most common outdoor temperatures on the self-cleaning performance of TiO2-based coatings is essential for the fabrication of any kind of photocatalytic self-cleaning materials (fabricated by coating technology) that is expected to be subjected to outdoor environments. In this work, the photocatalytic activity was studied by Fourier Transformed Infrared (FTIR) Spectroscopy varying the temperature in the 0 to 30 °C range for dense and mesoporous TiO2 coatings. The temperature conditions at which these coatings present better performances were identified, providing a deeper insight for the practical application of TiO2-based self-cleaning coatings.
Keywords: Mesoporous TiO2; low temperature; TiO2; film; self-cleaning; photocatalysis; dense TiO2
Rights: © 2017 Elsevier B.V. All rights reserved.
RMID: 0030078468
DOI: 10.1016/j.apsusc.2017.11.078
Appears in Collections:Physics publications

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