2018
DOI: 10.1016/j.jallcom.2018.02.001
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Radiocatalytic Cu-incorporated TiO2 nano-particles for the degradation of organic species under gamma irradiation

Abstract: We report on an experimental study aimed at optimizing the radiocatalytic properties of pure and copper-incorporated TiO 2 powders. This has been achieved by conducting crosschecked structural, optical and radiocatalytic studies. Structural and nanoscale analyses show evidence of internal doping by Cu 2+ in the TiO 2 lattice that leads to the reduction of the optical band gap down to 1.5 eV. The effect of gamma radiation on the radiocatalytic activity of these catalysts was studied by degradation of methylene … Show more

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Cited by 15 publications
(11 citation statements)
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“…For non-irradiated samples, we note that the intensity of the EPR peak assigned todecreases notably after addition of Cu in the TiO 2 samples [35]. After gamma irradiation such EPR peak increases notably and especially for 3 at.% Cu-TiO 2 , while the 6 at.% Cu-TiO 2 EPR spectrum changes radically.…”
Section: Epr Spectroscopy Analysismentioning
confidence: 71%
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“…For non-irradiated samples, we note that the intensity of the EPR peak assigned todecreases notably after addition of Cu in the TiO 2 samples [35]. After gamma irradiation such EPR peak increases notably and especially for 3 at.% Cu-TiO 2 , while the 6 at.% Cu-TiO 2 EPR spectrum changes radically.…”
Section: Epr Spectroscopy Analysismentioning
confidence: 71%
“…4(e)). EPR investigations confirm that the 6 at.% Cu-TiO 2 non-gamma irradiated crystallites are mainly undoped and that copper species are distributed over the surface of the crystallites, in metallic or Cu 2 O forms [35]. Those copper species, by covering the surface of the crystallites, may be at the origin of the photocatalytical efficiency drop by limiting the interaction between the sunlight and the catalyst.…”
Section: Nanoscale Analysismentioning
confidence: 76%
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“…Furthermore, they can shift the optical absorption edge of TiO 2 to lower energy, and thereby extend the photoactive region to visible-light [37]. It is well known that the photocatalytic performance of TiO 2 depends strongly on the amount of doping and the annealing temperatures of samples [38]. Therefore, it seems necessary to study the effects of the annealing temperature on the phase structure, crystallinity, specific surface area, and resulting photocatalytic activity of N-Fe codoped TiO 2 nanorods.…”
Section: Introductionmentioning
confidence: 99%