Enhanced luminescence of Mn4+equivalently doped fluoride phosphors by reducing defects and impurities

The Mn4+-equivalently doped fluoride has red emission with high color purity. Here, the luminescence of the Mn4+-equivalently doped fluoride K2TiF6:Mn4+ (KTF:Mn4+) is significantly enhanced by the NH4+ doping strategy with a 2.27 times increase in luminescence intensity and a slight enhancement in decay time. The mechanism of luminescence enhancement is attributed to lattice distortion caused after the substitution of K+ by NH4+, which improves the stability of Mn4+ and reduce the number of defects and impurities. The prototype WLED with high CRI (Ra = 90.4), the high luminous efficiency of 112 lm/W and low CCT (2836 K) are obtained by using the optimal K2TiF6:Mn4+,NH4+ (KTF:Mn4+, NH4+) as the red light component. Some important luminous performances of the prototype WLEDs barely varied as the drive current was increased from 20 to 100 mA. These results demonstrate that the Mn4+/ NH4+ co-doped KTF is well suited for the fabrication of highly stable WLEDs.(c) 2022 Elsevier B.V. All rights reserved.

Automated summary

The Mn4+-equivalently doped fluoride K2TiF6:Mn4+ (KTF:Mn4+) exhibits red emission with high color purity. By employing the NH4+ doping strategy, the luminescence of KTF:Mn4+ is significantly enhanced by 2.27 times in intensity and slightly improved in decay time. This enhancement is attributed to lattice distortion caused by NH4+ substitution, leading to improved stability of Mn4+ and reduced defects and impurities.