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    Please use this identifier to cite or link to this item: https://irlib.pccu.edu.tw/handle/987654321/41888


    Title: Structure and luminescence of core-shell phosphor aluminate-boron oxide
    Authors: Wu, CY (Wu, Chen-Yu)
    Lei, CM (Lei, Chien-Ming)
    Takei, T (Takei, Toshiaki)
    Wu, R (Wu, Rudder)
    Wang, SH (Wang, Shing-Hoa)
    Chou, CC (Chou, Chau-Chang)
    Chang, HY (Chang, Horng-Yi)
    Contributors: 化學工程與材料工程學系暨奈米材料研究所
    Keywords: SOLID-STATE REACTION
    PERSISTENT LUMINESCENCE
    SRAL2O4EU2+,DY3+ NANOSHEETS
    SRAL2O4 PHOSPHORS
    EU2+
    DY3+
    MECHANISM
    B2O3
    Date: 2018-04-30
    Issue Date: 2019-01-17 15:54:30 (UTC+8)
    Abstract: Long-afterglow phosphor SrAl2O4: 0.01Eu(2+), 0.01Dy(3+) (SAO) requires a high sintering temperature of 1400 degrees C even when boric acid is added as flux via a solid-state reaction. The aluminum source NaAlO2 behaved as a good mineralizer in the designed hydrothermal process to achieve a large surface-to-thickness ratio of SAO. The flower-like shape of hydrothermally prepared hSAO without B2O3 after annealing at 1100 degrees C/4 h transformed into a rod-like plate phosphor with nano-thickness. Such a small rod-like plate exhibited higher photoluminescence (PL) intensity than large-grained B2O3-added bSAO prepared via a solid-state reaction. The annealed hSAOs inherited the morphology of the as-hydrothermally prepared aluminates. A nano-thick sheet of annealed aSAO containing B2O3 further enhanced the PL significantly and indicated a blue shift independent of the grain size. Furthermore, the nano-thick sheet of phosphors exhibited the same afterglow as the conventional tens-of-micrometers-sized phosphors. Fourier-transform infrared spectroscopy and X-ray diffraction results showed that the B-O-4 bond may substitute Al-O-4 in the structure and the B-O-3 bond is in a flux outside the annealed aSAO and bSAO grains. The molten flux formed a thin layer on the surface of the SAO particles to be a core-shell of the SAO-B2O3 structure, behaving as a diffusion-assistant medium and environmental protection layer against acid and humidity. (c) 2018 Elsevier B.V. All rights reserved.
    Appears in Collections:[Department of Chemical & Materials Engineering] journal articles

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