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A Screening Technique Useful for Testing the Effectiveness of Novel "Self-Cleaning" Photocatalytic Surfaces
Journal article   Peer reviewed

A Screening Technique Useful for Testing the Effectiveness of Novel "Self-Cleaning" Photocatalytic Surfaces

Shane T Finn, Jessica A Strnad, Patricia D Barreto, Megan E Fox, Jorge Torres, James D Sweeney and José C Barreto
Photochemistry and photobiology, Vol.87(5), pp.1184-1188
09-2011
DOI: https://doi.org/10.1111/j.1751-1097.2011.00953.x
PMID: 21668868

Abstract

Air Pollutants - chemistry Azo Compounds - chemistry Catalysis - radiation effects Decontamination - methods Glass High-Throughput Screening Assays Hot Temperature Kinetics Photolysis - radiation effects Titanium - chemistry Ultraviolet Rays
We describe a screening methodology that can be used to quickly determine the effectiveness of newly synthesized photocatalysts. We were particularly interested in measuring the destruction of organic molecules painted onto a photocatalytic surface by spraying, with destruction proceeding in ambient air (as a model for airborne toxin destruction). Our method can utilize photocatalysts that are synthesized as powders (such as doped and undoped titanium oxide) and which are then calcined onto a glass substrate disk at 600°C. Herein, we used UV illumination of Aeroxide P-25 TiO(2), but the method is general and can accommodate any region of the light spectrum.

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