Luminescence Thermometry Beyond the Biological Realm

Luminescence Thermometry Beyond the Biological Realm

As the field of luminescence thermometry has matured, practical applications of luminescence thermometry techniques have grown in both frequency and scope. Due to the biocompatibility of most luminescent thermometers, many of these applications fall within the realm of biology. However, luminescence...

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Bibliographic Details
Published in:ACS Nanoscience Au Vol. 4; no. 1; pp. 30 - 61
Main Authors: Harrington, Benjamin, Ye, Ziyang, Signor, Laura, Pickel, Andrea D.
Format: Journal Article
Language:English
Published: United States American Chemical Society 21-02-2024
Subjects:
measurement artifacts
batch calibration
thermal metrology
upconverting nanoparticles
color centers
ratiometric thermometry
luminescence thermometry
nanothermometry
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Summary:As the field of luminescence thermometry has matured, practical applications of luminescence thermometry techniques have grown in both frequency and scope. Due to the biocompatibility of most luminescent thermometers, many of these applications fall within the realm of biology. However, luminescence thermometry is increasingly employed beyond the biological realm, with expanding applications in areas such as thermal characterization of microelectronics, catalysis, and plasmonics. Here, we review the motivations, methodologies, and advances linked to nonbiological applications of luminescence thermometry. We begin with a brief overview of luminescence thermometry probes and techniques, focusing on those most commonly used for nonbiological applications. We then address measurement capabilities that are particularly relevant for these applications and provide a detailed survey of results across various application categories. Throughout the review, we highlight measurement challenges and requirements that are distinct from those of biological applications. Finally, we discuss emerging areas and future directions that present opportunities for continued research.
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ISSN:2694-2496
2694-2496
DOI:10.1021/acsnanoscienceau.3c00051