Issue 13, 2023, Issue in Progress

CaGdF5 based heterogeneous core@shell upconversion nanoparticles for sensitive temperature measurement

Abstract

Lanthanide-doped upconversion nanoparticles (UCNPs) have attracted great attention in temperature sensing because of their widespread thermal quenching effect (TQE), a phenomenon in which luminescence intensity decreases as the temperature increases. However, enhancing the TQE of activated ions without changing the dopants or the host is still challenging. Herein, Yb3+ and Er3+ codoped UCNPs in a cubic CaGdF5 host were synthesized by a coprecipitation method for optical temperature sensing. Compared with the homogeneous shell (CaGdF5), those heterogeneous (CaF2) shelled UCNPs exhibited stronger upconversion luminescence (UCL) due to the significantly reduced multiphonon nonradiative relaxation. Further, we investigated the effects of homogeneous and heterogeneous shells on TQE. The relationship between the intensity ratio of the green emission bands of Er3+ ions (2H11/24I15/2 and 4S3/24I15/2) and temperature are obtained for these two core@shell UCNPs. The results demonstrated that the UCNPs with CaF2 shells are more sensitive to temperature in the 200–300 K. The maximum thermal sensitivity of CaGdF5:Yb,Er@CaF2 could reach 2.2% K−1 at 200 K. These results indicate that the heterogeneous core@shell UCNPs are promising for use as optical temperature sensors.

Graphical abstract: CaGdF5 based heterogeneous core@shell upconversion nanoparticles for sensitive temperature measurement

Supplementary files

Article information

Article type
Paper
Submitted
02 Feb 2023
Accepted
05 Mar 2023
First published
14 Mar 2023
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2023,13, 8535-8539

CaGdF5 based heterogeneous core@shell upconversion nanoparticles for sensitive temperature measurement

X. Xie, W. Wang, H. Chen, R. Yang, H. Wu, D. Gan, B. Li, X. Kong, Q. Li and Y. Chang, RSC Adv., 2023, 13, 8535 DOI: 10.1039/D3RA00716B

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