Ultrasensitive Colorimetric Luminescence Thermometry by Progressive Phase Transition

Hao Suo; Dongxu Guo; Peihang Zhao; Xin Zhang; Yu Wang; Weilin Zheng; Panlai Li; Tao Yin; Li Guan; Zhijun Wang; Feng Wang

doi:10.1002/advs.202305241

Advanced Science (Feb 2024)

Ultrasensitive Colorimetric Luminescence Thermometry by Progressive Phase Transition

Hao Suo,
Dongxu Guo,
Peihang Zhao,
Xin Zhang,
Yu Wang,
Weilin Zheng,
Panlai Li,
Tao Yin,
Li Guan,
Zhijun Wang,
Feng Wang

Affiliations

Hao Suo: National‐Local Joint Engineering Laboratory of New Energy Photoelectric Devices Hebei Key Laboratory of Optic‐electronic Information and Materials College of Physics Science & Technology Hebei University Baoding 071002 China
Dongxu Guo: National‐Local Joint Engineering Laboratory of New Energy Photoelectric Devices Hebei Key Laboratory of Optic‐electronic Information and Materials College of Physics Science & Technology Hebei University Baoding 071002 China
Peihang Zhao: National‐Local Joint Engineering Laboratory of New Energy Photoelectric Devices Hebei Key Laboratory of Optic‐electronic Information and Materials College of Physics Science & Technology Hebei University Baoding 071002 China
Xin Zhang: Department of Materials Science and Engineering City University of Hong Kong Kowloon Hong Kong SAR 999077 China
Yu Wang: National‐Local Joint Engineering Laboratory of New Energy Photoelectric Devices Hebei Key Laboratory of Optic‐electronic Information and Materials College of Physics Science & Technology Hebei University Baoding 071002 China
Weilin Zheng: Department of Materials Science and Engineering City University of Hong Kong Kowloon Hong Kong SAR 999077 China
Panlai Li: National‐Local Joint Engineering Laboratory of New Energy Photoelectric Devices Hebei Key Laboratory of Optic‐electronic Information and Materials College of Physics Science & Technology Hebei University Baoding 071002 China
Tao Yin: National‐Local Joint Engineering Laboratory of New Energy Photoelectric Devices Hebei Key Laboratory of Optic‐electronic Information and Materials College of Physics Science & Technology Hebei University Baoding 071002 China
Li Guan: National‐Local Joint Engineering Laboratory of New Energy Photoelectric Devices Hebei Key Laboratory of Optic‐electronic Information and Materials College of Physics Science & Technology Hebei University Baoding 071002 China
Zhijun Wang: National‐Local Joint Engineering Laboratory of New Energy Photoelectric Devices Hebei Key Laboratory of Optic‐electronic Information and Materials College of Physics Science & Technology Hebei University Baoding 071002 China
Feng Wang: Department of Materials Science and Engineering City University of Hong Kong Kowloon Hong Kong SAR 999077 China

DOI: https://doi.org/10.1002/advs.202305241
Journal volume & issue: Vol. 11, no. 7
pp. n/a – n/a

Abstract

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Abstract Luminescent materials that display quick spectral responses to thermal stimuli have attracted pervasive attention in sensing technologies. Herein, a programmable luminescence color switching in lanthanide‐doped LiYO2 under thermal stimuli, based on deliberate control of the monoclinic (β) to tetragonal (α) phase transition in the crystal lattice, is reported. Specifically, a lanthanide‐doping (Ln3+) approach to fine‐tune the phase‐transition temperature in a wide range from 294 to 359 K is developed. Accordingly, an array of Ln3+‐doped LiYO2 crystals that exhibit progressive phase transition, and thus sequential color switching at gradually increasing temperatures, is constructed. The tunable optical response to thermal stimuli is harnessed for colorimetric temperature indication and quantitative detection, demonstrating superior sensitivity and temperature resolution (Sr = 26.1% K−1, δT = 0.008 K). The advances in controlling the phase‐transition behavior of luminescent materials also offer exciting opportunities for high‐performance personalized health monitoring.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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