Critical evaluation of the thermometric performance of ratiometric luminescence thermometers based on Ba(VO):Mn,Nd for deep-tissue thermal imaging
Near-infrared (NIR) luminescence thermometry has been brought to the fore as a reliable approach for remote thermal sensing and imaging. Lanthanide (Ln 3+ )-based nanophosphors are often proposed as NIR nanothermometers of choice. However, the combination of Ln 3+ with transition metal (TM) ions has...
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| Published in | Journal of materials chemistry. C, Materials for optical and electronic devices Vol. 11; no. 2; pp. 6713 - 6723 |
|---|---|
| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Published |
25.05.2023
|
| Online Access | Get full text |
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| Abstract | Near-infrared (NIR) luminescence thermometry has been brought to the fore as a reliable approach for remote thermal sensing and imaging. Lanthanide (Ln
3+
)-based nanophosphors are often proposed as NIR nanothermometers of choice. However, the combination of Ln
3+
with transition metal (TM) ions has recently emerged as a strategy to introduce additional emission bands and/or TM ↔ Ln
3+
energy transfer pathways whose temperature dependence can be harnessed to increase the sensitivity of the thermometric approach. Yet, the examples of the combination of luminescence nanothermometers working in the NIR and hosting simultaneously TM and Ln
3+
are scarce, leaving plenty of space for the exploration of these systems. Herein, we report on the preparation and optimization of the thermometric performance of Ba
3
(VO
4
)
2
:Mn
5+
,Nd
3+
nanophosphors. The different temperature dependences of the emission intensity of the two doped luminescent centers allow using the ratio between Mn
5+
and Nd
3+
as a reliable thermometric parameter with a relative thermal sensitivity of 1% K
−1
close to room temperature. We then showcase the suitability of this nanophosphor for employment in 2D NIR luminescence thermal imaging. Lastly, we critically evaluate the possibility of using this thermal imaging approach through opaque media with the help of phantoms with tissue-like optical properties. As expected, a loss of reliability of the thermometric method is observed due to tissue-induced photon scattering and absorption that differentially affect the emission of Mn
5+
and Nd
3+
. Overall, the reported results underscore the good performance of the newly developed nanothermometer, while consolidating the call for the use of luminescence nanothermometers working in the time-domain (rather than in the spectral domain) for deep-tissue thermal readout/imaging.
The thermometric performance of ratiometric luminescence thermometers based on Ba
3
(VO
4
)
2
:Mn
5+
,Nd
3+
for thermal imaging was evaluated. |
|---|---|
| AbstractList | Near-infrared (NIR) luminescence thermometry has been brought to the fore as a reliable approach for remote thermal sensing and imaging. Lanthanide (Ln
3+
)-based nanophosphors are often proposed as NIR nanothermometers of choice. However, the combination of Ln
3+
with transition metal (TM) ions has recently emerged as a strategy to introduce additional emission bands and/or TM ↔ Ln
3+
energy transfer pathways whose temperature dependence can be harnessed to increase the sensitivity of the thermometric approach. Yet, the examples of the combination of luminescence nanothermometers working in the NIR and hosting simultaneously TM and Ln
3+
are scarce, leaving plenty of space for the exploration of these systems. Herein, we report on the preparation and optimization of the thermometric performance of Ba
3
(VO
4
)
2
:Mn
5+
,Nd
3+
nanophosphors. The different temperature dependences of the emission intensity of the two doped luminescent centers allow using the ratio between Mn
5+
and Nd
3+
as a reliable thermometric parameter with a relative thermal sensitivity of 1% K
−1
close to room temperature. We then showcase the suitability of this nanophosphor for employment in 2D NIR luminescence thermal imaging. Lastly, we critically evaluate the possibility of using this thermal imaging approach through opaque media with the help of phantoms with tissue-like optical properties. As expected, a loss of reliability of the thermometric method is observed due to tissue-induced photon scattering and absorption that differentially affect the emission of Mn
5+
and Nd
3+
. Overall, the reported results underscore the good performance of the newly developed nanothermometer, while consolidating the call for the use of luminescence nanothermometers working in the time-domain (rather than in the spectral domain) for deep-tissue thermal readout/imaging.
The thermometric performance of ratiometric luminescence thermometers based on Ba
3
(VO
4
)
2
:Mn
5+
,Nd
3+
for thermal imaging was evaluated. |
| Author | Jaque, D Marciniak, L Marin, R Szymczak, M Ortgies, D. H Martín Rodríguez, E Drami anin, M. D Bolek, P Piotrowski, W. M Rodríguez-Sevilla, P |
| AuthorAffiliation | Vin a Institute of Nuclear Sciences - National Institute of the Republic of Serbia Hospital Ramón y Cajal Faculty of Chemistry University of Wroc aw14 F. Joliot-Curie Departamento de Física de Materiales University of Belgrade Institute for Advanced Research in Chemistry (IAdChem) Universidad Autónoma de Madrid Facultad de Ciencias Departamento de Física Aplicada Campus de Cantoblanco Institute of Low Temperature and Structure Research Nanomaterials for Bioimaging Group (nanoBIG) Instituto Ramón y Cajal de Investigación Sanitaria (IRYCIS) Polish Academy of Sciences Centre of Excellence for Photoconversion |
| AuthorAffiliation_xml | – name: Universidad Autónoma de Madrid – name: Instituto Ramón y Cajal de Investigación Sanitaria (IRYCIS) – name: University of Belgrade – name: Nanomaterials for Bioimaging Group (nanoBIG) – name: Polish Academy of Sciences – name: Facultad de Ciencias – name: Campus de Cantoblanco – name: Institute of Low Temperature and Structure Research – name: Vin a Institute of Nuclear Sciences - National Institute of the Republic of Serbia – name: Hospital Ramón y Cajal – name: Departamento de Física de Materiales – name: Faculty of Chemistry – name: University of Wroc aw14 F. Joliot-Curie – name: Institute for Advanced Research in Chemistry (IAdChem) – name: Centre of Excellence for Photoconversion – name: Departamento de Física Aplicada |
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| References_xml | – doi: Pechini – issn: 2016 volume-title: Lanthanides in Luminescent Thermometry end-page: p 339-427 publication-title: Handbook on the Physics and Chemistry of Rare Earths doi: Brites Millán Carlos – issn: 2005 end-page: p 11-34 publication-title: Modern Luminescence Spectroscopy of Minerals and Materials. In Modern Luminescence Spectroscopy of Minerals and Materials |
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| Title | Critical evaluation of the thermometric performance of ratiometric luminescence thermometers based on Ba(VO):Mn,Nd for deep-tissue thermal imaging |
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