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Identification and location of iron species in Fe/SBA-15 catalysts: Interest of heterojunctions for Fenton reactions (CROSBI ID 176681)

Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija

Cornu, Cécile ; Bonardet, Jean-Luc ; Casale, Sandra ; Davidson, Anne ; Abramson, Sébastien ; André, Gilles ; Porcher, Florence ; Grčić, Ivana ; Tomašić, Vesna ; Vujević, Dinko et al. Identification and location of iron species in Fe/SBA-15 catalysts: Interest of heterojunctions for Fenton reactions // Journal of physical chemistry. C, 116 (2012), 5; 3437-3448. doi: 10.1021/jp2038625

Podaci o odgovornosti

Cornu, Cécile ; Bonardet, Jean-Luc ; Casale, Sandra ; Davidson, Anne ; Abramson, Sébastien ; André, Gilles ; Porcher, Florence ; Grčić, Ivana ; Tomašić, Vesna ; Vujević, Dinko ; Koprivanac, Natalija

engleski

Identification and location of iron species in Fe/SBA-15 catalysts: Interest of heterojunctions for Fenton reactions

We have used a single SBA-15 silica batch (mesopore diameter of 7.1 nm) and the two solvents impregnation technique with either pentane or cyclohexane to prepare model samples in which an initial aqueous solution of salt precursor (iron nitrate or iron chloride) is deposited mainly inside silica pores. Detailed characterization by SAXS, WAXS, Ar sorption, TEM (SAED) and UV visible NIR spectroscopy are described. Molecular iron species and iron oxide particles are identified. Special emphasis is given to the spatial location of the oxide particles (trapped inside silica pores or dispersed outside silica grains). The formation of hematite external particles is favoured when iron chloride is used as a precursor and pentane as a solvent. Spectral signatures that can be attributed either with iron oxide particles or with iron dispersed species (isolated Fe (II) / (III) ions, pairs and/or clusters, films of iron silicate) are detected by UV-visible-NIR spectroscopy. Additional neutron diffraction measurements performed on a sample particularly enriched in external hematite particles indicate a very low magnetic moment of 3.9 (1) μB per iron atom and show that external hematite particles are not significantly polluted by Si atoms. Model catalysts, all containing molecular species but particularly enriched either in external or internal iron oxide particles were selected and tested for the catalytic Fenton decomposition (with H2O2, diluted O2 and under artificial white light) of sodium formate and of an organic copper-containing dye (Reactive Violet 2) in water. Samples enriched in external hematite particles are significantly less active and react less rapidly than samples containing mainly iron species remaining trapped inside silica grains. Preliminary UV-visible-NIR spectra suggest that strong interactions between molecular species and internal replicated oxide particles are at the origin of an enhanced reactivity.

water ; photocatalysis ; heterojunctions ; hematite ; iron ; SBA-15 silica

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Podaci o izdanju

116 (5)

2012.

3437-3448

objavljeno

1932-7447

1932-7455

10.1021/jp2038625

Povezanost rada

Kemija, Kemijsko inženjerstvo, Temeljne tehničke znanosti

Poveznice
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