In recent years, it has become a development trend to design multi-application luminescent materials with rare earth ion doping. In this work, a series of Eu3+/Sm3+ doped self-activated Na2YMg2V3O12 (NYMVO) phosphors were synthesized through a simple high-temperature solid-state reaction method. Interestingly, due to the energy transfer (ET) from the matrix to the activators, the luminescence color of the phosphors changed from turquoise to orange-red and yellow-green under near-ultraviolet (n-UV) 365 nm excitation. Based on the fluorescence intensity ratio of the matrix to Eu3+/Sm3+, the optical thermometry performances of the NYMVO:0.20Eu3+ and NYMVO:0.06Sm3+ phosphors were described. Notably, the maximum absolute sensitivity (Sa) values for NYMVO:0.20Eu3+ and NYMVO:0.06Sm3+ phosphors were 0.30 K-1 and 0.032 K-1, respectively. Correspondingly, the maximum relative sensitivity (Sr) values were 2.17 %K-1 and 1.22 %K-1, respectively. Moreover, the light-emitting devices based on NYMVO:0.20Eu3+ and NYMVO:0.06Sm3+ phosphors had excellent optical properties, with correlated color temperature (CCT) of 4552 K and 4470 K, and color-rendering index (CRI) of 84.6 and 88.5. These results suggested that the two vanadate phosphors prepared had potential applications in both warm white light-emitting diodes (WLEDs) and optical thermometry.
Keywords: Eu(3+); Optical thermometry; Phosphor; Sm(3+); WLEDs.
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