Nobuko Maeda scite author profile

Ta2O5–xEr2O3 (TE) films were produced by a sol-gel method and a dip-coating technique with heat treatment at 600–1000 °C. Their powders were also prepared from the same sol. The Er3+ fluorescence property of the TE films containing various contents of Er3+ was measured as a function of the heat-treatment temperature. In crystallized films, the Er3+ fluorescence was observed because water-related residues (Ta–OH and H2O) and carbon-related residues (–CH3, –CH2–, –(C ⁼ O)–, and C≡C–H) were removed from the films. It is shown from infrared absorption spectroscopy that Ta–O− and Ta ⁼ O structures dissolve the Er3+ ions selectively and play a role in dispersing the Er3+. The strongest Er3+ fluorescence is observed in the TE film with 2 mol% of Er2O3 because of its highest ability to disperse the Er3+ ions.

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Preparation and optical properties of sol–gel derived Er3+-doped Al2O3–Ta2O5 films

Maeda

Wada

Onoda

et al. 2005

Optical Materials

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Fluorescence property and dissolution site of Er3+ in Ta2O5 film prepared by sol-gel method and dip-coating technique

et al. 2004

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Preparation of ultrafine superconducting YBCO particles by wet jet-mill

Kezuka

Miyanaga²,

Kan-Nari³

et al. 1996

Materials Chemistry and Physics

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Nobuko Maeda

Spectroscopic properties of Er3+ in sol–gel derived ZrO2 films

Fluorescence property and dissolution site of Er³⁺ in Ta₂O₅ film prepared by sol-gel method and dip-coating technique

Preparation and optical properties of sol–gel derived Er3+-doped Al2O3–Ta2O5 films

Fluorescence property and dissolution site of Er3+ in Ta2O5 film prepared by sol-gel method and dip-coating technique

Preparation of ultrafine superconducting YBCO particles by wet jet-mill

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