Synergistic modulation of energy transfer and defect engineering toward anti-thermal quenching phosphor for high-sensitivity optical thermometry

•The microwave-assisted solid-state synthesized optimal phosphor presents an anti-thermal quenching (109 %@423 K).•The high-temperature solid-state synthesized optimal phosphor presents a zero-thermal quenching (99.5 %@423 K).•The optimal phosphor displays high temperature sensitivity values of Sa-m...

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Vydáno v:Applied materials today Ročník 38; s. 102246
Hlavní autoři: Song, Ruitong, Wang, Ruonan, Yang, Xin, Bian, Xiaomin, Fu, Hao
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Ltd 01.06.2024
Témata:
Anti-thermal quenching
Energy transfer
Optical thermometry
Phosphor
Optical thermometry
Anti-thermal quenching
Energy transfer
Phosphor
ISSN:2352-9407, 2352-9415
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Abstract •The microwave-assisted solid-state synthesized optimal phosphor presents an anti-thermal quenching (109 %@423 K).•The high-temperature solid-state synthesized optimal phosphor presents a zero-thermal quenching (99.5 %@423 K).•The optimal phosphor displays high temperature sensitivity values of Sa-max (5.61×10−2 K−1) and Sr-max (4.43 % K−1). Thermal quenching is a critical challenge confronting many phosphors, especially those utilized in the high temperature range, which limits the development of highly sensitive optical thermometry under high temperature conditions. However, it is still quite challenging to obtain anti-thermal quenching phosphor and realize optical thermometry at high temperatures. Herein, a novel co-doped Na3Ca4TeP3O15 (NCTP):Tb3+,Eu3+ phosphor is designed by a facile microwave-assisted solid-state (MASS) reaction, which presents anti-thermal quenching performance. Anti-thermal quenching (109 %@423 K) is realized via the synergistic effect of energy transfer and manipulation of defects by MASS. In view of the significantly different response of Tb3+/Eu3+ to temperature, the luminescence intensity ratio (LIR) readout is designed for non-contact optical thermometry with maximum absolute (Sa) and relative (Sr) sensitivities of 5.61×10−2 K−1 and 4.43 % K−1, respectively. The strategy of designing anti-thermal quenching phosphor is expected to open up new research avenues for realizing optical thermometry at high temperatures. [Display omitted]
AbstractList •The microwave-assisted solid-state synthesized optimal phosphor presents an anti-thermal quenching (109 %@423 K).•The high-temperature solid-state synthesized optimal phosphor presents a zero-thermal quenching (99.5 %@423 K).•The optimal phosphor displays high temperature sensitivity values of Sa-max (5.61×10−2 K−1) and Sr-max (4.43 % K−1). Thermal quenching is a critical challenge confronting many phosphors, especially those utilized in the high temperature range, which limits the development of highly sensitive optical thermometry under high temperature conditions. However, it is still quite challenging to obtain anti-thermal quenching phosphor and realize optical thermometry at high temperatures. Herein, a novel co-doped Na3Ca4TeP3O15 (NCTP):Tb3+,Eu3+ phosphor is designed by a facile microwave-assisted solid-state (MASS) reaction, which presents anti-thermal quenching performance. Anti-thermal quenching (109 %@423 K) is realized via the synergistic effect of energy transfer and manipulation of defects by MASS. In view of the significantly different response of Tb3+/Eu3+ to temperature, the luminescence intensity ratio (LIR) readout is designed for non-contact optical thermometry with maximum absolute (Sa) and relative (Sr) sensitivities of 5.61×10−2 K−1 and 4.43 % K−1, respectively. The strategy of designing anti-thermal quenching phosphor is expected to open up new research avenues for realizing optical thermometry at high temperatures. [Display omitted]
ArticleNumber 102246
Author Yang, Xin
Bian, Xiaomin
Fu, Hao
Wang, Ruonan
Song, Ruitong
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  surname: Wang
  fullname: Wang, Ruonan
  organization: School of Physics, University of Electronic Science and Technology of China, Chengdu 611731, China
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  fullname: Yang, Xin
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  givenname: Xiaomin
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  givenname: Hao
  surname: Fu
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  email: fuhao@uestc.edu.cn
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Keywords Optical thermometry
Anti-thermal quenching
Energy transfer
Phosphor
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Snippet •The microwave-assisted solid-state synthesized optimal phosphor presents an anti-thermal quenching (109 %@423 K).•The high-temperature solid-state synthesized...
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SubjectTerms Anti-thermal quenching
Energy transfer
Optical thermometry
Phosphor
Title Synergistic modulation of energy transfer and defect engineering toward anti-thermal quenching phosphor for high-sensitivity optical thermometry
URI https://dx.doi.org/10.1016/j.apmt.2024.102246
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