Abstract
A novel red light emission long persistent phosphor, Ca2SnO4:Pr3+, was prepared by a high temperature solid-state reaction method. All as-prepared phosphors were studied systematically by X-ray diffraction, photoluminescence spectra, decay curves, afterglow spectra and thermoluminescence (TL) glow curves. Four main emission peaks of afterglow spectrum locate at 496, 605, 625 and 658nm corresponding to CIE chromaticity coordinates of x=0.506, y=0.355. The intensities of photoluminescence and the performance of afterglow are dependent on the concentration of Pr3+ ions. The traps with depth of 0.79–0.82eV are the origination of long afterglow (LAG). The optimal concentration of Pr3+ ions for the best afterglow characteristic was experimentally to be 0.3mol%. After irradiation by 254nm, the duration of red afterglow can last about 20min. The mechanism of LAG in Ca2SnO4:Pr3+ was also discussed in detail.
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