Abstract
Blue-emitting phosphors are essential components of the color plasma display panel (PDP), white light-emitting diodes (W-LEDs), and liquid crystal display (LCD) backlights. However, the thermal quenching effect of the phosphor is a serious problem in practice. In this work, a new kind of blue phosphor Ba3YAl2O7.5: xTm3+ was prepared and the luminescent characteristic and thermal stability were studied. Under 358 nm excitation, the phosphors produced a blue emission peak centered at 461 nm, which is due to the transition of Tm3+ from level 1D2 to 3F4. Moreover, the optimal sample Ba3YAl2O7.5: 0.03Tm3+ shows an anti-thermal quenching effect in which the emission intensity at 210 °C rises to 120 % of that at 30 °C , attributable to the presence of oxygen vacancy defects. The result indicates that the Ba3YAl2O7.5: Tm3+ with excellent thermal stability is a promising blue phosphor for lighting and display fields.
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