Efficiencies Evaluation of Photocatalytic Paints Under Indoor and Outdoor Air Conditions

The removal of indoor and outdoor air pollutants is crucial to prevent environmental and health issues. Photocatalytic building materials are an energy-sustainable technology that can completely oxidize pollutants, improving in situ the air quality of contaminated sites. In this work, different phot...

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Bibliographic Details
Published in:Frontiers in chemistry 2020-10, Vol.8, p.551710-551710
Main Authors: Salvadores, Federico, Reli, Martin, Alfano, Orlando M., Kočí, Kamila, Ballari, María de los Milagros
Format: Article
Language:English
Subjects:
air decontamination
Chemistry
modified TiO2
photocatalytic paints
photonic efficiency
quantum efficiency
ultraviolet light
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Summary:The removal of indoor and outdoor air pollutants is crucial to prevent environmental and health issues. Photocatalytic building materials are an energy-sustainable technology that can completely oxidize pollutants, improving in situ the air quality of contaminated sites. In this work, different photoactive TiO 2 catalysts (anatase or modified anatase) and amounts were used to formulate photocatalytic paints in replacement of the normally used TiO 2 (rutile) pigment. These paints were tested in two different experimental systems simulating indoor and outdoor environments. In one, indoor illumination conditions were used in the photoreactor for the oxidation of acetaldehyde achieving conversions between 37 and 55%. The other sets of experiments were performed under simulated outdoor radiation for the degradation of nitric oxide, resulting in conversions between 13 and 35%. This wide range of conversions made it difficult to directly compare the paints. Thus, absorption, photonic, and quantum efficiencies were calculated to account for the paints photocatalytic performance. It was found that the formulations containing carbon-doped TiO 2 presented the best efficiencies. The paint with the maximum amount of this photocatalyst showed the highest absorption and photonic efficiencies. On the other hand, the paint with the lowest amount of carbon-doped TiO 2 presented the highest value of quantum efficiency, thus becoming the optimal formulation in terms of energy use.
ISSN:2296-2646
2296-2646
DOI:10.3389/fchem.2020.551710