Regulating anti-thermal quenching to zero thermal quenching for highly efficient blue-emitting Eu 2+ -doped K-beta-alumina phosphors

High quantum efficiency and high thermal stability have always been two indicators to measure whether phosphors have excellent luminescence performance. In this paper, a series of blue-emitting K-beta-alumina phosphors K 0.90− x Sr x Al 11 O 17+ d :0.2Eu 2+ were successfully synthesized by introducing Sr 2+ to partially replace K + ions. The internal and external quantum efficiencies can be improved to 92.4 and 73.4%, respectively, for x = 0.06 with the introduction of Sr 2+ . More importantly, the anti-thermal quenching properties of the original phosphor (without Sr 2+ ) can be successfully regulated to zero thermal quenching within 150 °C by partially replacing K + with Sr 2+ . Thermoluminescence spectra suggest that the introduction of Sr 2+ reduces the content of shallow traps related to V O and increases the deep traps related to V K . The introduction of Sr 2+ is accompanied by the decrease of the (K,Sr,Eu)/Al ratio, which leads to the weakening of structural rigidity. As a result, the dynamic equilibrium between the non-radiative process and the anti-thermal quenching process facilitates the zero thermal quenching. A phosphor-converted light-emitting diode (pc-LED) with a high color rendering index (CRI = 91.6) and low correlated color temperature (CCT = 5108 K) also shows the great potential of this phosphor in white pc-LEDs.