4.7 Article

Double-excited states of charge transfer band and 4f-4f in single-phase K3Gd(VO4)(2):Tb3+/Sm3+ phosphors with superior sensing sensitivity for potential luminescent thermometers

期刊

JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY
卷 91, 期 -, 页码 148-159

出版社

JOURNAL MATER SCI TECHNOL
DOI: 10.1016/j.jmst.2021.02.041

关键词

Double-excited lines; FIR technique; Energy transfer; Sensing sensitivity

资金

  1. National Research Foundation of Korea (NRF) - Korean government (MSIP) [2018R1A6A1A03025708, 2020R1A2B5B01002318]

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The study introduces a novel strategy of luminescent materials based on the fluorescence intensity ratio technique for thermometers. The prepared K3Gd(VO4)(2):Tb3+/Sm3+ phosphors show promising sensing sensitivity and different concentration quenching mechanisms under double-excited states. This single-phase material could potentially be a candidate for optical thermometers with high temperature resolution.
Temperature is one of the fundamental parameters for thermodynamics and its accurate detection is necessary. The novel strategy of luminescent materials based on the fluorescence intensity ratio technique has been promised for thermometers in more practical environments to overcome the drawbacks of conventional thermometers in recent. Herein, the novel single-phase K3Gd(VO4)(2):Tb3+/Sm3+ phosphors were successfully prepared, and the (4)G(5/2) -> H-6(9/2) (Sm3+) and D-5(4) -> F-7(5) (Tb3+) transitions could be promised for luminescent thermometers. Besides, under the double-excited states of charge transfer band (CTB, 317 nm) and 4f-4f (478 nm) excitations, the K3Gd(VO4)(2):Tb3+/Sm3+ phosphors exhibited different concentration quenching mechanisms in energy transfer processes and also showed superior absolute sensing sensitivity (S-a) and relative sensing sensitivity (S-r). Especially, the maximum S-a and S-r values reached up to 0.568 K-1 and 11.24% K-1, respectively and the temperature resolution of the KGV:0.2Tb(3+)/0.01Sm(3+) phosphor was higher than 0.004 K under the excitation wavelength of CTB (317 nm), indicating that the double-excited states in the single-phase KGV:Tb3+/Sm3+ phosphors with superior sensing sensitivity could be a novel candidate for potential optical thermometers. (C) 2021 Published by Elsevier Ltd on behalf of Chinese Society for Metals.

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