Journal
JOURNAL OF ALLOYS AND COMPOUNDS
Volume 935, Issue -, Pages -Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.jallcom.2022.168064
Keywords
Rare earths orthophosphates; Thermal history sensors; Luminescent nanoparticles; Structural transformation
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This study demonstrated that temperature-driven irreversible structural phase transformations in Eu3+ activated LaPO4, La0.5Y0.5PO4, and YPO4 nanocrystals can be utilized for thermal history measurements in the temperature range of 200°C-1000°C. The changes in Eu3+ local surroundings due to temperature increase modified the intensity and emission spectra, and the intensity ratio of Eu3+ 5D0 -> 7F2 to 5D0 -> 7F1 emissions served as a highly-sensitive indicator of the highest temperature experienced by the nanocrystals. The proposed ratiometric readout strategy enhanced the accuracy of thermal history analysis.
It was demonstrated that he temperature-driven irreversible structural phase transformations in the Eu3+ activated LaPO4, La0.5Y0.5PO4, and YPO4 nanocrystals can be used for the thermal history measurements over the 200oC-1000oC temperature range. Increase of the temperature caused significant changes in the Eu3+ local surroundings and, in consequence modified the intensity and the emission spectra. We showed that the intensity ratio of Eu3+ 5D0 -> 7F2 to 5D0 -> 7F1 emissions may serve as a highly-sensitive indicator of the highest temperature to which the nanocrystals were exposed to. The relative sensitivity of Y0.5La0.5PO4:2 %Eu3+ based thermal history paint was as high as 0.8 %/degrees C at 1000 degrees C. The thermal history surface map of the square steel plate covered with Y0.5La0.5PO4:2 %Eu3+ paint, heated locally at one of the corner is obtained as proof-of-concept experiment. The proposed ratiometric readout strategy facilitates measurement and enhances the accuracy of thermal history analysis. (c) 2022 Published by Elsevier B.V.
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