1. Synthesis of Ba3(VO4)2 :Sm3+ phosphor by molten salt method and its temperature sensing characteristics.
- Author
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CHEN Jinrun, LI Zixuan, JIAO Lixin, LI Wei, CHU Chu, CAO Xiuzhe, and ZHAI Yongqing
- Abstract
A series of Ba
3-x ( VO4 )2 : xSm3+ (x = 0.02-0.16) phosphors were synthesized using the molten salt method with KCl as the salt. The effects of synthesis conditions as well as Sm3+ doping concentration on the phase structure and luminescence properties of the sample were investigated in detail. The temperature sensing characteristics of the sample were also studied. The optimum reaction conditions for synthesizing the sample are calcination temperature of 900 °C, calcination time of 1h, and a mass ratio of raw materials to molten salt of 1 : 3. The obtained sample has high phase purity and crystallinity. The micromorphology of the sample is lamellar with a thickness of about 1.53 mm. Upon the ultraviolet excitation of 318 nm, the broad emission from the VO4 3- groups and characteristic emissions from Sm3+ can be observed simultaneously in the emission spectra of Ba3-x (VO4 )2 :xSm3+ phosphors, with the emission colors concentrated in the yellow-white light region. With the increase of Sm3+ doping concentration (x) from 0.02 to 0.16, the intensity of the characteristic emission peak of Sm3+ first increases and then decreases, reaching its maximum value when x =0.10. The dominant mechanism for the concentration quenching in Ba3-x (VO4 )2 :xSm3+ phosphors is attributed to the dipole-dipole (d-d) interaction. Moreover, for Ba2.9 (VO4 )2 : 0.10Sm3+ phosphors, it is found that the fluorescence intensity ratio of Sm3+ (652 nm) and VO4 3- groups (504 nm) shows a significant temperature dependence in the temperature range of 298-473 K. Its maximum absolute and relative temperature sensor sensitivities are 0.36/K and 1.99%/K, respectively. The results indicate that Sm3+ doped Ba3 (VO4 )2 phosphors exhibit excellent temperature sensing performance and potential applications in non-contact optical thermometry. [ABSTRACT FROM AUTHOR]- Published
- 2024
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