Optical temperature sensing of up-conversion luminescent materials: Fundamentals and progress

Optical temperature sensing of up-conversion luminescent materials: Fundamentals and progress

Temperature monitoring plays an important role in ensuring product quality, saving energy, promoting the development of national economy and providing basic diagnostic criteria in the field of biomedicine. Due to the importance and universality of temperature measurement, the study of temperature se...

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Bibliographic Details
Published in:Journal of alloys and compounds Vol. 817; p. 152691
Main Authors: Zhao, Yan, Wang, Xusheng, Zhang, Ying, Li, Yanxia, Yao, Xi
Format: Journal Article
Language:English
Published: Lausanne Elsevier B.V 15-03-2020
Elsevier BV
Subjects:
Detection
Diagnostic systems
Energy conservation
Fluorescence
Fluorescence intensity ratio technique
Health services
Metal ions
Optical temperature sensing
Rare earth elements
Rare-earth luminescence
Temperature measurement
Temperature sensors
Up-conversion luminescence
Upconversion
Optical temperature sensing
Up-conversion luminescence
Rare-earth luminescence
Fluorescence intensity ratio technique
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Summary:Temperature monitoring plays an important role in ensuring product quality, saving energy, promoting the development of national economy and providing basic diagnostic criteria in the field of biomedicine. Due to the importance and universality of temperature measurement, the study of temperature sensing property and the pursuit of high sensitivity have become an important research field of rare-earth luminescent materials in recent years, and have received extensive attention. In this paper, different optical temperature sensing methods and principles, the application of rare-earth luminescent materials in optical temperature sensing, and the types of up-conversion luminescent thermometry materials are reviewed. First, we introduce that optical thermometry can realize non-contact temperature measurement, large-scale imaging, wide dynamic range and rapid response in biological fluorescent tag, accurate measurement of local temperature in medical treatment, and direct temperature measurement of an inaccessible object, which has a very broad application prospect. Meanwhile, we emphasize that the fluorescence intensity ratio technique based on the thermally coupled levels of rare-earth ions has been considered as a reliable and promising non-contact optical temperature sensing method due to its high accuracy and reliability. In the later sections, we review the fundamentals and research progress of rare-earth luminescent materials in optical temperature sensing. Double-doped up-conversion thermometry materials with diverse activators and Yb3+ as sensitizers are mainly introduced, as well as tri-doped multi-color optical thermometry materials. Finally, we summarize the current research results and discuss further research directions on the basis of their current developments. It is hoped that this review could provide new inspiration for the subsequent novel temperature sensors in the future. •Optical thermometry of up-conversion luminescent material is reviewed emphatically.•Optical thermometry focuses on the fluorescence intensity ratio method.•The main challenges that we need to overcome are discussed.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2019.152691