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Investigating the Thermometric Performance of Inorganic Materials Doped with Nd[sup.3+] under Infrared LED Excitation: An Alternative for Deep Tissue Luminescent Thermometry

Luminescent thermometers based on the luminescence intensity ratio between two thermally coupled levels have a strong appeal in the biomedical area due to the possibility of monitoring the temperature of deep tissues. In such procedures, it is necessary that the excitation and emission wavelengths a...

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Bibliographic Details
Published in:Photonics 2023-05, Vol.10 (5)
Main Authors: Laia, André S, Hora, Daniela A, Rezende, Marcos V. dos S, Gomes, Maria A, Brandão-Silva, Antônio C, Santos, Marcos A. C. dos, Dantas, Noelio O, Silva, Anielle C. A, Rodrigues, José J, Valerio, Mário E. G, Macedo, Zélia S, Alencar, Márcio A. R. C
Format: Article
Language:English
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Summary:Luminescent thermometers based on the luminescence intensity ratio between two thermally coupled levels have a strong appeal in the biomedical area due to the possibility of monitoring the temperature of deep tissues. In such procedures, it is necessary that the excitation and emission wavelengths are within the biological windows. Probes based on neodymium luminescence, with excitation and emission around 800 and 880 nm, are frequently proposed but have low relative sensitivity (0.2%.K[sup.−1]) due to the small energy separation between the explored Stark sublevels. By changing the excitation wavelength to around 750 nm, it is possible to explore the thermal coupling between the [sup.4]F[sub.5/2] and [sup.4]F[sub.3/2] levels. However, lasers in this wavelength range are not common. An alternative is to use LEDs as an excitation source. As a proof of concept, we investigated the thermometric performance of three distinct Nd-doped luminescent probes under 730 nm LED excitation and 532 nm laser excitation: nanocrystalline Y[sub.2]O[sub.3], LiBaPO[sub.4] microcrystals, and lithium-boron-aluminum (LBA) glass. The results indicated that the use of LEDs as an excitation source can be applied in nano-, micro- and macro-structured probes, as it does not compromise the thermometric performance of the systems, which exhibited relative sensitivities of approximately 2%.K[sup.−1].
ISSN:2304-6732
DOI:10.3390/photonics10050485