Advanced Materials, volume 35, issue 36

Spotlight on Luminescence Thermometry: Basics, Challenges, and Cutting‐Edge Applications

Carlos D. S. Brites ¹

Riccardo Marin ^{2, 3}

Markus Suta ⁴

Albano N. Carneiro Neto ¹

E Ximendes ^{2, 5}

D. Jaque ^{2, 3, 5}

Luís D. Carlos ¹

Hide authors affiliations Show authors affiliations: 5 affiliations

Phantom‐g CICECO Departamento de Física Universidade de Aveiro Campus Santiago Aveiro 3810‐193 Portugal |

Departamento de Física de Materiales Nanomaterials for Bioimaging Group (NanoBIG) Facultad de Ciencias Universidad Autónoma de Madrid Madrid 28049 Spain |

Institute for Advanced Research in Chemical Sciences (IAdChem) Universidad Autónoma de Madrid Madrid 28049 Spain |

⁴

Inorganic Photoactive Materials Institute of Inorganic Chemistry and Structural Chemistry Heinrich Heine University Düsseldorf Universitätsstraße 1 40225 Düsseldorf Germany |

⁵

Nanomaterials for Bioimaging Group (NanoBIG) Instituto Ramón y Cajal de Investigación Sanitaria (IRYCIS) Hospital Ramón y Cajal Madrid 28034 Spain |

Publication type: Journal Article

Publication date: 2023-07-21

Wiley

Journal: Advanced Materials

Quartile SCImago

Quartile WOS

Impact factor: 29.4

ISSN: 09359648, 15214095

DOI: 10.1002/adma.202302749

Copy DOI

General Materials Science

Mechanical Engineering

Mechanics of Materials

Abstract

Luminescence (nano)thermometry is a remote sensing technique that relies on the temperature dependency of the luminescence features (e.g., bandshape, peak energy or intensity, and excited state lifetimes and risetimes) of a phosphor to measure temperature. This technique provides precise thermal readouts with superior spatial resolution in short acquisition times. Although luminescence thermometry is just starting to become a more mature subject, it exhibits enormous potential in several areas, e.g., optoelectronics, photonics, micro‐ and nanofluidics, and nanomedicine. This work reviews the latest trends in the field, including the establishment of a comprehensive theoretical background and standardized practices. The reliability, repeatability, and reproducibility of the technique are also discussed, along with the use of multiparametric analysis and artificial‐intelligence algorithms to enhance thermal readouts. In addition, examples are provided to underscore the challenges that luminescence thermometry faces, alongside the need for a continuous search and design of new materials, experimental techniques, and analysis procedures to improve the competitiveness, accessibility, and popularity of the technology

By date By citations

Top-30

Citations by journals

	1 2 3 4 5 6 7
Advanced Optical Materials	Advanced Optical Materials, 7, 7.69% Advanced Optical Materials 7 publications, 7.69%
Journal of Alloys and Compounds	Journal of Alloys and Compounds, 6, 6.59% Journal of Alloys and Compounds 6 publications, 6.59%
Advanced Materials	Advanced Materials, 5, 5.49% Advanced Materials 5 publications, 5.49%
Inorganic Chemistry	Inorganic Chemistry, 4, 4.4% Inorganic Chemistry 4 publications, 4.4%
Ceramics International	Ceramics International, 4, 4.4% Ceramics International 4 publications, 4.4%
Optical Materials	Optical Materials, 4, 4.4% Optical Materials 4 publications, 4.4%
Journal of Materials Chemistry C	Journal of Materials Chemistry C, 3, 3.3% Journal of Materials Chemistry C 3 publications, 3.3%
Journal of Luminescence	Journal of Luminescence, 3, 3.3% Journal of Luminescence 3 publications, 3.3%
Nanomaterials	Nanomaterials, 2, 2.2% Nanomaterials 2 publications, 2.2%
Handbook on the Physics and Chemistry of Rare Earths	Handbook on the Physics and Chemistry of Rare Earths, 2, 2.2% Handbook on the Physics and Chemistry of Rare Earths 2 publications, 2.2%
Small	Small, 2, 2.2% Small 2 publications, 2.2%
Coordination Chemistry Reviews	Coordination Chemistry Reviews, 2, 2.2% Coordination Chemistry Reviews 2 publications, 2.2%
Optical Materials: X	Optical Materials: X, 2, 2.2% Optical Materials: X 2 publications, 2.2%
Inorganic Chemistry Frontiers	Inorganic Chemistry Frontiers, 2, 2.2% Inorganic Chemistry Frontiers 2 publications, 2.2%
Advanced Materials Technologies	Advanced Materials Technologies, 2, 2.2% Advanced Materials Technologies 2 publications, 2.2%
Chemistry of Materials	Chemistry of Materials, 2, 2.2% Chemistry of Materials 2 publications, 2.2%
Nanoscale	Nanoscale, 2, 2.2% Nanoscale 2 publications, 2.2%
Angewandte Chemie - International Edition	Angewandte Chemie - International Edition, 1, 1.1% Angewandte Chemie - International Edition 1 publication, 1.1%
Angewandte Chemie	Angewandte Chemie, 1, 1.1% Angewandte Chemie 1 publication, 1.1%
RSC Advances	RSC Advances, 1, 1.1% RSC Advances 1 publication, 1.1%
ACS Nanoscience Au	ACS Nanoscience Au, 1, 1.1% ACS Nanoscience Au 1 publication, 1.1%
Chemical Communications	Chemical Communications, 1, 1.1% Chemical Communications 1 publication, 1.1%
Journal of the European Ceramic Society	Journal of the European Ceramic Society, 1, 1.1% Journal of the European Ceramic Society 1 publication, 1.1%
ACS Applied Optical Materials	ACS Applied Optical Materials, 1, 1.1% ACS Applied Optical Materials 1 publication, 1.1%
Advanced Sensor Research	Advanced Sensor Research, 1, 1.1% Advanced Sensor Research 1 publication, 1.1%
Journal of Physical Chemistry Letters	Journal of Physical Chemistry Letters, 1, 1.1% Journal of Physical Chemistry Letters 1 publication, 1.1%
Chemistry Letters	Chemistry Letters, 1, 1.1% Chemistry Letters 1 publication, 1.1%
Materials Today Physics	Materials Today Physics, 1, 1.1% Materials Today Physics 1 publication, 1.1%
Inorganic Materials	Inorganic Materials, 1, 1.1% Inorganic Materials 1 publication, 1.1%
Frontiers in Chemistry	Frontiers in Chemistry, 1, 1.1% Frontiers in Chemistry 1 publication, 1.1%
	1 2 3 4 5 6 7

Citations by publishers

	5 10 15 20 25 30 35
Elsevier	Elsevier, 31, 34.07% Elsevier 31 publications, 34.07%
Wiley	Wiley, 22, 24.18% Wiley 22 publications, 24.18%
American Chemical Society (ACS)	American Chemical Society (ACS), 12, 13.19% American Chemical Society (ACS) 12 publications, 13.19%
Royal Society of Chemistry (RSC)	Royal Society of Chemistry (RSC), 9, 9.89% Royal Society of Chemistry (RSC) 9 publications, 9.89%
Multidisciplinary Digital Publishing Institute (MDPI)	Multidisciplinary Digital Publishing Institute (MDPI), 3, 3.3% Multidisciplinary Digital Publishing Institute (MDPI) 3 publications, 3.3%
IOP Publishing	IOP Publishing, 2, 2.2% IOP Publishing 2 publications, 2.2%
Springer Nature	Springer Nature, 2, 2.2% Springer Nature 2 publications, 2.2%
American Institute of Physics (AIP)	American Institute of Physics (AIP), 2, 2.2% American Institute of Physics (AIP) 2 publications, 2.2%
The Chemical Society of Japan	The Chemical Society of Japan, 1, 1.1% The Chemical Society of Japan 1 publication, 1.1%
Pleiades Publishing	Pleiades Publishing, 1, 1.1% Pleiades Publishing 1 publication, 1.1%
Frontiers Media S.A.	Frontiers Media S.A., 1, 1.1% Frontiers Media S.A. 1 publication, 1.1%
Autonomous Non-profit Organization Editorial Board of the journal Uspekhi Khimii	Autonomous Non-profit Organization Editorial Board of the journal Uspekhi Khimii, 1, 1.1% Autonomous Non-profit Organization Editorial Board of the journal Uspekhi Khimii 1 publication, 1.1%
Optical Society of America	Optical Society of America, 1, 1.1% Optical Society of America 1 publication, 1.1%
American Physical Society (APS)	American Physical Society (APS), 1, 1.1% American Physical Society (APS) 1 publication, 1.1%
American Association for the Advancement of Science (AAAS)	American Association for the Advancement of Science (AAAS), 1, 1.1% American Association for the Advancement of Science (AAAS) 1 publication, 1.1%
The Electrochemical Society	The Electrochemical Society, 1, 1.1% The Electrochemical Society 1 publication, 1.1%
	5 10 15 20 25 30 35

We do not take into account publications without a DOI.
Statistics recalculated only for publications connected to researchers, organizations and labs registered on the platform.
Statistics recalculated weekly.

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Brites C. D. S. et al. Spotlight on Luminescence Thermometry: Basics, Challenges, and Cutting‐Edge Applications // Advanced Materials. 2023. Vol. 35. No. 36.

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Brites C. D. S., Marin R., Suta M., Neto A. N. C., Ximendes E., Jaque D., Carlos L. D. Spotlight on Luminescence Thermometry: Basics, Challenges, and Cutting‐Edge Applications // Advanced Materials. 2023. Vol. 35. No. 36.

RIS |

Cite this

RIS Copy

TY - JOUR

DO - 10.1002/adma.202302749

UR - https://doi.org/10.1002/adma.202302749

TI - Spotlight on Luminescence Thermometry: Basics, Challenges, and Cutting‐Edge Applications

T2 - Advanced Materials

AU - Brites, Carlos D. S.

AU - Marin, Riccardo

AU - Suta, Markus

AU - Neto, Albano N. Carneiro

AU - Ximendes, E

AU - Jaque, D.

AU - Carlos, Luís D.

PY - 2023

DA - 2023/07/21 00:00:00

PB - Wiley

IS - 36

VL - 35

SN - 0935-9648

SN - 1521-4095

ER -

BibTex

Cite this

BibTex Copy

@article{2023_Brites,

author = {Carlos D. S. Brites and Riccardo Marin and Markus Suta and Albano N. Carneiro Neto and E Ximendes and D. Jaque and Luís D. Carlos},

title = {Spotlight on Luminescence Thermometry: Basics, Challenges, and Cutting‐Edge Applications},

journal = {Advanced Materials},

year = {2023},

volume = {35},

publisher = {Wiley},

month = {jul},

url = {https://doi.org/10.1002/adma.202302749},

number = {36},

doi = {10.1002/adma.202302749}

}

Found error?

Publisher

Wiley

Journal

Advanced Materials

Quartile SCImago

Quartile WOS

Impact factor

29.4

ISSN

09359648 (Print)
15214095 (Electronic)

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