Environmental photocatalytic processes with POM. The photodecomposition of atrazine and photoreduction of metal ions from aqueous solutions

Environmental photocatalytic processes with POM. The photodecomposition of atrazine and photoreduction of metal ions from aqueous solutions

Polyoxometalate anions (POM), resulting from the condensation of tungstate anions in strongly acidified solutions, can absorb efficiently light in the UV-near Vis region.The produced excited state is a very powerful oxidative reagent which can, mainly via OH radical attack, oxidize and mineralize a...

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Main Authors: A. Hiskia, A. Troupis, E. Papaconstantinou
Format: Article
Language:English
Published: Hindawi Limited 2002-01-01
Series:International Journal of Photoenergy
Online Access:http://dx.doi.org/10.1155/S1110662X02000065
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spelling doaj-12393d8df69c48f089f83085705896f92020-11-24T22:19:45ZengHindawi LimitedInternational Journal of Photoenergy1110-662X2002-01-0141354010.1155/S1110662X02000065Environmental photocatalytic processes with POM. The photodecomposition of atrazine and photoreduction of metal ions from aqueous solutionsA. Hiskia0A. Troupis1E. Papaconstantinou2Institute of Physical Chemistry, NCSR Demokritos, Athens, GreeceInstitute of Physical Chemistry, NCSR Demokritos, Athens, GreeceInstitute of Physical Chemistry, NCSR Demokritos, Athens, GreecePolyoxometalate anions (POM), resulting from the condensation of tungstate anions in strongly acidified solutions, can absorb efficiently light in the UV-near Vis region.The produced excited state is a very powerful oxidative reagent which can, mainly via OH radical attack, oxidize and mineralize a great variety of organic pollutants in aqueous solutions, while the photocatalytic circle is closed by reoxidation of the reduced POM, mainly, by O2. Metal ions can also serve as oxidants and close the photocatalytic cycle. In the process metal ions are reduced, precipitated and removed from the solution. Thus photocatalytic treatment for decontamination of waste waters from both organic and inorganic pollutants (metal ions) can be, in principle, achieved. POM+S→hνPOMred+SoxPOMred+Mn+→POM+Mred Atrazine, a widely used herbicide with s-triazine structure, is photodecomposed to cyanuric acid in presence of SiW12O404- in aqueous solutions. However, no precipitation of metal ions is obtained when atrazine is the sole organic substrate in aqueous solutions. The low solubility of atrazine produces insufficient concentration of reduced POM to cause precipitation.http://dx.doi.org/10.1155/S1110662X02000065
collection DOAJ
language English
format Article
sources DOAJ
author A. Hiskia
A. Troupis
E. Papaconstantinou
spellingShingle A. Hiskia
A. Troupis
E. Papaconstantinou
Environmental photocatalytic processes with POM. The photodecomposition of atrazine and photoreduction of metal ions from aqueous solutions
International Journal of Photoenergy
author_facet A. Hiskia
A. Troupis
E. Papaconstantinou
author_sort A. Hiskia
title Environmental photocatalytic processes with POM. The photodecomposition of atrazine and photoreduction of metal ions from aqueous solutions
title_short Environmental photocatalytic processes with POM. The photodecomposition of atrazine and photoreduction of metal ions from aqueous solutions
title_full Environmental photocatalytic processes with POM. The photodecomposition of atrazine and photoreduction of metal ions from aqueous solutions
title_fullStr Environmental photocatalytic processes with POM. The photodecomposition of atrazine and photoreduction of metal ions from aqueous solutions
title_full_unstemmed Environmental photocatalytic processes with POM. The photodecomposition of atrazine and photoreduction of metal ions from aqueous solutions
title_sort environmental photocatalytic processes with pom. the photodecomposition of atrazine and photoreduction of metal ions from aqueous solutions
publisher Hindawi Limited
series International Journal of Photoenergy
issn 1110-662X
publishDate 2002-01-01
description Polyoxometalate anions (POM), resulting from the condensation of tungstate anions in strongly acidified solutions, can absorb efficiently light in the UV-near Vis region.The produced excited state is a very powerful oxidative reagent which can, mainly via OH radical attack, oxidize and mineralize a great variety of organic pollutants in aqueous solutions, while the photocatalytic circle is closed by reoxidation of the reduced POM, mainly, by O2. Metal ions can also serve as oxidants and close the photocatalytic cycle. In the process metal ions are reduced, precipitated and removed from the solution. Thus photocatalytic treatment for decontamination of waste waters from both organic and inorganic pollutants (metal ions) can be, in principle, achieved. POM+S→hνPOMred+SoxPOMred+Mn+→POM+Mred Atrazine, a widely used herbicide with s-triazine structure, is photodecomposed to cyanuric acid in presence of SiW12O404- in aqueous solutions. However, no precipitation of metal ions is obtained when atrazine is the sole organic substrate in aqueous solutions. The low solubility of atrazine produces insufficient concentration of reduced POM to cause precipitation.
url http://dx.doi.org/10.1155/S1110662X02000065
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