Lanthanide-based ratiometric luminescence nanothermometry

被引:0
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作者
Mochen Jia
Xu Chen
Ranran Sun
Di Wu
Xinjian Li
Zhifeng Shi
Guanying Chen
Chongxin Shan
机构
[1] Zhengzhou University,Key Laboratory of Materials Physics of Ministry of Education, School of Physics and Microelectronics
[2] Harbin Institute of Technology,MIIT Key Laboratory of Critical Materials Technology for New Energy Conversion and Storage, School of Chemistry and Chemical Engineering & Key Laboratory of Micro
关键词
luminescent nanothermometry; lanthanide ions; ratiometric thermometers; thermal imaging;
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学科分类号
摘要
Luminescent nanothermometry can precisely and remotely measure the internal temperature of objects at nanoscale precision, which, therefore, has been placed at the forefront of scientific attention. In particular, due to the high photochemical stability, low toxicity, rich working mechanisms, and superior thermometric performance, lanthanide-based ratiometric luminesencent thermometers are finding prevalent uses in integrated electronics and optoelectronics, property analysis of in-situ tracking, biomedical diagnosis and therapy, and wearable e-health monitoring. Despite recent progresses, it remains debate in terms of the underlying temperature-sensing mechanisms, the quantitative characterization of performance, and the reliability of temperature readouts. In this review, we show the origin of thermal response luminescence, rationalize the ratiometric scheme or thermometric mechanisms, delve into the problems in the characterization of thermometric performance, discuss the universal rules for the quantitative comparison, and showcase the cutting-edge design and emerging applications of lanthanide-based ratiometric thermometers. Finally, we cast a look at the challenges and emerging opportunities for further advances in this field.
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页码:2949 / 2967
页数:18
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