Order and disorder around Cr(3+) in chromium doped persistent luminescent AB2O4 spinels

The X-ray absorption near edge structure (XANES) spectroscopy technique is used to better understand the charging and decharging processes of the persistent luminescence in the Cr(3+)doped AB2O4 spinels (A = Zn, Mg and B = Ga and Al) with low photon energy excitation by visible light. Cr K edge XANE...

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Veröffentlicht in:	Physical chemistry chemical physics : PCCP 2015-04, Vol.17 (16), p.10993-10999
Hauptverfasser:	Basavaraju, Neelima, Priolkar, Kaustubh R, Gourier, Didier, Bessière, Aurélie, Viana, Bruno
Format:	Artikel
Sprache:	eng
Schlagworte:	Aluminum Oxide - chemistry Chromium - chemistry Luminescent Agents - chemistry Magnesium Oxide - chemistry Models, Molecular Molecular Conformation
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creator	Basavaraju, Neelima Priolkar, Kaustubh R Gourier, Didier Bessière, Aurélie Viana, Bruno
description	The X-ray absorption near edge structure (XANES) spectroscopy technique is used to better understand the charging and decharging processes of the persistent luminescence in the Cr(3+)doped AB2O4 spinels (A = Zn, Mg and B = Ga and Al) with low photon energy excitation by visible light. Cr K edge XANES spectra have been simulated for different near neighbour environments around the Cr(3+) recombination centres and compared with the experimental curve. In the Cr(3+):ZnGa2O4 compound, the Cr(3+) local structure corresponds mostly to that of a normal spinel (∼70%), while the rest comprises of a distorted octahedral environment arising from cationic site inversion and a contribution from chromium clustering. This local structure is considerably different in Cr(3+):MgGa2O4 and Cr(3+):ZnAl2O4, where, for both cases, chromium clustering represents the main contribution. The strong correlation between the intensity of persistent luminescence and the percentage of Cr in clusters leads us to infer that the presence of Cr clusters is responsible for the decrease of the intensity of the visible light induced persistent luminescence in the Cr(3+) doped AB2O4 spinels.
doi_str_mv	10.1039/c5cp01097g
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Cr K edge XANES spectra have been simulated for different near neighbour environments around the Cr(3+) recombination centres and compared with the experimental curve. In the Cr(3+):ZnGa2O4 compound, the Cr(3+) local structure corresponds mostly to that of a normal spinel (∼70%), while the rest comprises of a distorted octahedral environment arising from cationic site inversion and a contribution from chromium clustering. This local structure is considerably different in Cr(3+):MgGa2O4 and Cr(3+):ZnAl2O4, where, for both cases, chromium clustering represents the main contribution. 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Cr K edge XANES spectra have been simulated for different near neighbour environments around the Cr(3+) recombination centres and compared with the experimental curve. In the Cr(3+):ZnGa2O4 compound, the Cr(3+) local structure corresponds mostly to that of a normal spinel (∼70%), while the rest comprises of a distorted octahedral environment arising from cationic site inversion and a contribution from chromium clustering. This local structure is considerably different in Cr(3+):MgGa2O4 and Cr(3+):ZnAl2O4, where, for both cases, chromium clustering represents the main contribution. 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subjects	Aluminum Oxide - chemistry Chromium - chemistry Luminescent Agents - chemistry Magnesium Oxide - chemistry Models, Molecular Molecular Conformation
title	Order and disorder around Cr(3+) in chromium doped persistent luminescent AB2O4 spinels
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