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ERDEM, MURAT

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2015 - 20162
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Author: BAŞAK, ALİ SADİ × Subject: NONSTOICHIOMETRY ×

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    Molten salt synthesis, visible and near-IR region spectral properties of europium or neodymium doped CoNb2O6 columbite niobate
    (ROYAL SOC CHEMISTRY, 2015) BAŞAK, ALİ SADİ; Ekmekci, Mete Kaan; Erdem, Murat; Basak, Ali Sadi
    Pure Nd3+- or Eu3+-doped CoNb2O6 powders have been prepared by a molten salt synthesis method using a Li2SO4-Na2SO4 or NaCl-KCl salt mixture as a flux at relatively low temperatures as compared to the solid state reaction method. X-ray diffraction patterns of pure CoNb2O6 samples indicated an orthorhombic single phase. For Eu3+-doped CoNb2O6 samples, the luminescence of Eu3+ was observed at 615 nm as red emission while the Nd3+ doped sample showed a typical emission at 1064 nm varying with the Eu3+ or Nd3+ doping concentrations. These luminescence characteristics of the doped samples may be attributed to the energy transfer between rare earth ions and CoO6 octahedral groups in the columbite structure.
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    Structural and optical properties of Nd3+ doped columbite SrNb2O6
    (ELSEVIER GMBH, 2016) BAŞAK, ALİ SADİ; Ekmekci, Mete Kaan; Erdem, Murat; Basak, Ali Sadi; Danis, Ozkan
    Nd-doped SrNb2O6 particles have been prepared by a molten salt method using strontium nitrate, niobium oxide and NaCl-KCl salt mixture as a flux at a relatively low temperature as compared to solid-state reaction method. X-ray diffraction patterns of the pure SrNb2O6 samples exhibited a single orthorhombic phase. Photoluminescence (PL) properties of Nd-doped samples in near-infrared spectral region were studied in detail. A characteristic luminescence of Nd3+ at 1.06 mu m was observed for Nd-doped SrNb2O6. Concentration quenching phenomenon was detected depending on the Nd-doping concentrations at room temperature. This characteristic of the doped samples may be ascribed to the energy transfer between Nd3+ and niobate groups (NbO6). (C) 2016 Elsevier GmbH. All rights reserved.