Synthesis and luminescent study of Ce3+-doped terbium–yttrium aluminum garnet

► Ce3+-doped garnets (TYAG) were prepared using nanostructured reagents. ► The Ce3+ ions cause a very efficient yellow emission of the samples. ► The reasons for the long wavelength position of this emission are discussed. ► Contribution from Al atoms to the conduction band of TYAG is quite essentia...

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Bibliographic Details
Published inJournal of alloys and compounds Vol. 550; pp. 159 - 163
Main Authors Dotsenko, V.P., Berezovskaya, I.V., Zubar, E.V., Efryushina, N.P., Poletaev, N.I., Doroshenko, Yu.A., Stryganyuk, G.B., Voloshinovskii, A.S.
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier B.V 15.02.2013
Elsevier
Subjects
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Electronic band structure
Exact sciences and technology
Luminescence
Optical properties and condensed-matter spectroscopy and other interactions of matter with particles and radiation
Other solid inorganic materials
Oxides materials
Phosphors
Photoluminescence
Physics
Solid state reactions
Solid state reactions
Oxides materials
Phosphors
Electronic band structure
Luminescence
Interband transitions
Doping
Photoluminescence
Garnets
Solid state reaction
Cerium additions
Excitation spectrum
Chemical composition
Bound exciton
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Summary:► Ce3+-doped garnets (TYAG) were prepared using nanostructured reagents. ► The Ce3+ ions cause a very efficient yellow emission of the samples. ► The reasons for the long wavelength position of this emission are discussed. ► Contribution from Al atoms to the conduction band of TYAG is quite essential. Terbium–yttrium aluminum garnets (TYAG) doped with Ce3+ ions have been prepared by solid state reactions between nanostructured oxides of aluminum and rare earths. The luminescent properties of Ce3+ ions in (Тb0.8Y0.2)3(1−x)Ce3xAl5O12 (х=0.03) have been studied upon excitation in the 2–20eV region. The substitution of Tb3+ for Y3+ in the garnet structure results in broadening the emission band and shifting its maximum towards the longer wavelengths. It was found that in addition to the 4fn→4fn−15d excitation bands of Ce3+ and Tb3+ ions, the excitation spectra for the Ce3+ emission contain broad bands at 6.73 and ∼9.5eV. These bands are attributed to the Ce3+-bound exciton formation and O 2p→Al 3s, 3p transitions, respectively. In contrast to the predictions based on the results of electronic structure calculations on Y3Al5O12 and Tb4Al2O9, the threshold of interband transitions in TYAG is at high energies (⩾7.3eV), and contributions from Altetr and Aloct atoms to the conduction-band density of states are evaluated as quite essential.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2012.09.053