A theoretical framework for optical thermometry based on excited-state absorption and lifetimes of Eu3+ compounds


Ratiometric optical thermometers correspond to one of the most extensively studied applications of luminescent lanthanide materials in recent years. Even though several systems were studied involving the Eu3+ ion, few of them explore the absorption from the low-lying F-7(1) excited state and its dependence on the ligand field (LF) splitting. This work aims to describe various absorption intensity ratios (AIR) that can be built from the excitation or absorption spectrum of the europium (III) ion by using the absorptions from the F-7(0) -> D-5(0) transition and the different ligand field components of the magnetic-dipole allowed F-7(1) -> D-5(0) transition and the influence of the ligand field strength on the relative thermal sensitivity of such AIR constructions. We have shown that several AIR formulas can be obtained, and they can display opposite behaviors concerning the Ligand Field strength, being suitable for different compounds of non-cubic symmetries. In addition, the ligand field influence on the relative thermal sensitivity obtained by the lifetime thermometry of the Eu3+ D-5(0) level has also been explored.




Blois, L; Neto, ANC; Malta, OL; Brito, HF

nossos autores


The authors are grateful to the Brazilian funding agencies CNPq and FAPESP for financial support. L. Blois is thankful to FAPESP for the Ph.D. scholarship (Grant 2020/16795 - 6) . A.N. Carneiro Neto thanks the financial support from the European Union's Horizon 2020 FET Open program under grant agreement no. 801305. This work was also developed within the scope of the project CICECO-Aveiro Institute of Materials, UIDB/50011/2020, UIDP/50011/2020 & LA/P/0006/2020, financed by Portuguese funds through the FCT/MEC (PIDDAC) . H.F. Brito is grateful to CNPq for the research grant (306951/2018 - 5) .

Partilhe este projeto

Publicações similares

Usamos cookies para atividades de marketing e para lhe oferecer uma melhor experiência de navegação. Ao clicar em “Aceitar Cookies” você concorda com nossa política de cookies. Leia sobre como usamos cookies clicando em "Política de Privacidade e Cookies".