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Tm3+/Yb3+ codoped CaGdAlO4 phosphors for wide-range optical temperature sensing

Yuqiang Li, Jian Yang, Mingwei Wang, Yaqi Zhu, Hancheng Zhu, Duanting Yan, Chunguang Liu, Changshan Xu, Yuxue Liu, Yuxue Liu

2022Journal of Luminescence27 citationsDOIOpen Access PDF

Abstract

In this paper, single-phase CaGd 1- x-y Tm x Yb y AlO 4 (CGA:Tm x ,Yb y , 0.0005 ≤ x ≤ 0.005, 0.06 ≤ y ≤ 0.14) phosphors were synthesized by a combustion method in combination with a following heattreatment. It is found that their average grain sizes are in the range of ∼0.60–1.74 μm. For these phosphors under 980 nm excitation at room temperature , four sharp emission bands at 474, 651, 693 and 801 nm can be attributed to the 1 G 4 → 3 H 6 , 1 G 4 → 3 F 4 , 3 F 2,3 → 3 H 6 and 3 H 4 → 3 H 6 transitions of Tm 3+ involving in the three-photon and two-photon processes. When x and y are equal to 0.001 and 0.10, respectively, the strongest UC emission intensity can be acquired. By employing the optimal phosphors, the wide-range temperature sensing from 173 to 823 K was realized based on LIR 693/801 and FWHM 801 parameters. The S A − L I R and S R − L I R in the temperature range from 300 to 823 K are in the range of 0.19–6.55 × 10 −4 K −1 and 2.93–0.38 × 10 −2 K −1 , respectively. The S A − F W H M and S R − F W H M in the temperature range from 173 to 823 K are in the range of 4458-2044 × 10 −4 K −1 and 0.20–0.05 × 10 −2 K −1 , respectively. Furthermore, our result demonstrates that CGA:Tm 0.001 ,Yb 0.1 phosphors has potential applications in wide-range optical temperature sensing working under extreme conditions.

Topics & Concepts

PhosphorAnalytical Chemistry (journal)Atmospheric temperature rangeFull width at half maximumChemistryRange (aeronautics)ExcitationEmission intensityPhotoluminescenceMaterials sciencePhysicsOptoelectronicsComposite materialChromatographyQuantum mechanicsMeteorologyLuminescence Properties of Advanced MaterialsMicrowave Dielectric Ceramics SynthesisPerovskite Materials and Applications
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