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dc.contributor.authorCastellino, Micaela
dc.contributor.authorRivolo, Paola
dc.contributor.authorRicciardi, Serena
dc.contributor.authorFrascella, Francesca
dc.date.accessioned2021-06-02T10:08:20Z
dc.date.available2021-06-02T10:08:20Z
dc.date.issued2016
dc.identifierONIX_20210602_10.5772/62899_284
dc.identifier.urihttps://library.oapen.org/handle/20.500.12657/49170
dc.description.abstractThe photocatalytic properties of titanium dioxide have been widely studied over recent decades since the discovery of water photolysis by TiO2 electrodes in 1972. Titanium dioxide has three main crystal polymorphs; anatase, rutile and brookite and rutile is the most common as the metastable polymorph. Each polymorph has different band gap positions. Anatase’s band gap is 3.2 eV, higher than rutile’s which is 3.0 eV. This difference in the band gap will determine their optimum UV wavelength range to promote a photocatalytic process. There are different methods to assess the photocatalytic activity of a material. The most commonly used method is the degradation of a dye in aqueous solution under UV light, due to its simplicity. Under these conditions the decomposition rate of a suitable organic dye is used as a measure of activity. Physical properties such as particle size and surface area will determine the effective area that will interact and absorb the dye prior to degradation. The physical mechanisms involved in such aqueous based methods differ from gas phase reactions. More advanced techniques use mass spectrometers to evaluate photocatalytic activity of titanium dioxide in the gas phase. An effective photocatalyst for heterogeneous reactions in the gas phase is one which is efficient at creating radicals as a result of an absorbed photon.
dc.languageEnglish
dc.subject.classificationbic Book Industry Communication::P Mathematics & science::PH Physics::PHF Materials / States of matter::PHFC Condensed matter physics (liquid state & solid state physics)
dc.subject.otherphotocatalysis, UV irradiation, nitrogen dioxide, methylene blue reduction, mass spectrometer
dc.titleChapter Ultra-Thin Plasma-Polymerized Functional Coatings for Biosensing: Polyacrylic Acid, Polystyrene and Their Co-Polymer
dc.typechapter
oapen.identifier.doi10.5772/62899
oapen.relation.isPublishedBy09f6769d-48ed-467d-b150-4cf2680656a1
oapen.relation.isFundedByFP7-ICT-2011-8
oapen.grant.number318035
oapen.grant.acronymBILOBA


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