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Equal rights for activators – Ytterbium to Terbium cooperative sensitization in molecular upconversion

Equal rights for activators – Ytterbium to Terbium cooperative sensitization in molecular upconversion
Equal rights for activators – Ytterbium to Terbium cooperative sensitization in molecular upconversion
Molecular scaffolds are ideal for investigating upconversion (UC) at the highest spatial resolution and to create precisely controllable luminescent materials. Such control may be the key to overcoming the limitations of brightness and reproducibility found in UC micro- and nanoparticles. Cooperative UC can significantly increase luminescence brightness and bulk studies showed that highest efficiencies can be obtained by sensitizer-to-activator ion ratios ≥ 2, that is, via high probabilities of sensitizing the emitting lanthanide ion. Using nonanuclear molecular complexes, the authors demonstrate both experimentally and theoretically that interion distances are more relevant and that the highest UC efficiencies are actually attained for sensitizer-to-activator ion ratios around 1. By modeling accretive and cooperative sensitization UC, energy migration, and fitting experimental data, it is revealed that cooperative sensitization is predominant for the determination of UC luminescence intensities, whereas energy migration defines UC luminescence kinetics. The implementation of interion distances and different energy transfer mechanisms into advanced modeling of experimental UC data will be paramount for designing brighter and better UC materials.
lanthanides, modeling, polynuclear complexes, terbium, upconverting complexes
2195-1071
Pini, Federico
41d05a90-553b-4ee2-8903-7bda13d0e61c
Knighton, Richard C.
5a63128e-0ebd-466a-b327-3aee6e85a76d
Soro, Lohona K.
38527bf7-6809-4629-8292-005031501b98
Charbonnière, Loïc J.
cb976ce4-b45a-493c-bd86-3a5c508678d5
Natile, Marta M.
0a65c4fc-0317-4c9e-a02b-fb958f263088
Hildebrandt, Niko
0e6cf360-e77d-4dd9-90e0-9db3cca54d7b
Pini, Federico
41d05a90-553b-4ee2-8903-7bda13d0e61c
Knighton, Richard C.
5a63128e-0ebd-466a-b327-3aee6e85a76d
Soro, Lohona K.
38527bf7-6809-4629-8292-005031501b98
Charbonnière, Loïc J.
cb976ce4-b45a-493c-bd86-3a5c508678d5
Natile, Marta M.
0a65c4fc-0317-4c9e-a02b-fb958f263088
Hildebrandt, Niko
0e6cf360-e77d-4dd9-90e0-9db3cca54d7b

Pini, Federico, Knighton, Richard C., Soro, Lohona K., Charbonnière, Loïc J., Natile, Marta M. and Hildebrandt, Niko (2024) Equal rights for activators – Ytterbium to Terbium cooperative sensitization in molecular upconversion. Advanced Optical Materials, 12 (23), [2400423]. (doi:10.1002/adom.202400423).

Record type: Article

Abstract

Molecular scaffolds are ideal for investigating upconversion (UC) at the highest spatial resolution and to create precisely controllable luminescent materials. Such control may be the key to overcoming the limitations of brightness and reproducibility found in UC micro- and nanoparticles. Cooperative UC can significantly increase luminescence brightness and bulk studies showed that highest efficiencies can be obtained by sensitizer-to-activator ion ratios ≥ 2, that is, via high probabilities of sensitizing the emitting lanthanide ion. Using nonanuclear molecular complexes, the authors demonstrate both experimentally and theoretically that interion distances are more relevant and that the highest UC efficiencies are actually attained for sensitizer-to-activator ion ratios around 1. By modeling accretive and cooperative sensitization UC, energy migration, and fitting experimental data, it is revealed that cooperative sensitization is predominant for the determination of UC luminescence intensities, whereas energy migration defines UC luminescence kinetics. The implementation of interion distances and different energy transfer mechanisms into advanced modeling of experimental UC data will be paramount for designing brighter and better UC materials.

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Advanced Optical Materials - 2024 - Pini - Equal Rights for Activators Ytterbium to Terbium Cooperative Sensitization in (1) - Version of Record
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e-pub ahead of print date: 14 May 2024
Keywords: lanthanides, modeling, polynuclear complexes, terbium, upconverting complexes

Identifiers

Local EPrints ID: 493217
URI: http://eprints.soton.ac.uk/id/eprint/493217
DOI: doi:10.1002/adom.202400423
ISSN: 2195-1071
PURE UUID: 45ee2fbf-57e6-46b1-9274-6487e4be2a1f
ORCID for Richard C. Knighton: ORCID iD orcid.org/0000-0002-0336-3718

Catalogue record

Date deposited: 28 Aug 2024 16:31
Last modified: 29 Aug 2024 02:07

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Contributors

Author: Federico Pini
Author: Richard C. Knighton ORCID iD
Author: Lohona K. Soro
Author: Loïc J. Charbonnière
Author: Marta M. Natile
Author: Niko Hildebrandt

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