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Upconversion in molecular hetero-nonanuclear lanthanide clusters in solution

Upconversion in molecular hetero-nonanuclear lanthanide clusters in solution
Upconversion in molecular hetero-nonanuclear lanthanide clusters in solution
Up until now restricted to solid state chemistry and nanoparticles, upconversion (UC) phenomena by which low energy photons are piled up to engender higher energy emission, are progressively entering the field of molecular probes with a handful of molecular/supramolecular discrete complexes. Here we show that nonanuclear lanthanide complexes respresent a new class of solution state UC materials, and are straightforwardly crystalized from LnCl3.6H2O salts, triethylamine and acetylacetone, retaining their structural integrity in solution. For a composition of one Tb per eight Yb the nonanuclear clusters display a very efficient upconversion phenomenon with Tb luminescence in the visible region upon 980 nm NIR excitation of Yb. An unprecedented value of 1.0×10-7 was obtained for the UC efficiency at only 2.86 W/cm2, demonstrating these new molecular clusters to be up to 26 times more efficient than the best current molecular systems, the UC being observed down to a concentration of 10 nM.
ChemRxiv
Knighton, Richard
5a63128e-0ebd-466a-b327-3aee6e85a76d
Soro, Lohona K.
38527bf7-6809-4629-8292-005031501b98
Lecointre, Alexandre
6f8516c8-6050-41ca-9271-f681e1f1c400
Pilet, Guillaume
c86d6529-0a87-41e7-ac1d-c1669708b046
Fateeva, Alexandra
fbe8f6e2-3b52-46c9-bb06-a25fca748305
pontille, laurie
05eb1a25-1534-49f5-be5d-a64e3af5ecf0
Francés-Soriano, Laura Laura
95c92bd4-db0a-453b-af86-82c38aa4db83
Hildebrandt, Niko
0e6cf360-e77d-4dd9-90e0-9db3cca54d7b
Charbonnière, Loïc J.
cb976ce4-b45a-493c-bd86-3a5c508678d5
Knighton, Richard
5a63128e-0ebd-466a-b327-3aee6e85a76d
Soro, Lohona K.
38527bf7-6809-4629-8292-005031501b98
Lecointre, Alexandre
6f8516c8-6050-41ca-9271-f681e1f1c400
Pilet, Guillaume
c86d6529-0a87-41e7-ac1d-c1669708b046
Fateeva, Alexandra
fbe8f6e2-3b52-46c9-bb06-a25fca748305
pontille, laurie
05eb1a25-1534-49f5-be5d-a64e3af5ecf0
Francés-Soriano, Laura Laura
95c92bd4-db0a-453b-af86-82c38aa4db83
Hildebrandt, Niko
0e6cf360-e77d-4dd9-90e0-9db3cca54d7b
Charbonnière, Loïc J.
cb976ce4-b45a-493c-bd86-3a5c508678d5

[Unknown type: UNSPECIFIED]

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Abstract

Up until now restricted to solid state chemistry and nanoparticles, upconversion (UC) phenomena by which low energy photons are piled up to engender higher energy emission, are progressively entering the field of molecular probes with a handful of molecular/supramolecular discrete complexes. Here we show that nonanuclear lanthanide complexes respresent a new class of solution state UC materials, and are straightforwardly crystalized from LnCl3.6H2O salts, triethylamine and acetylacetone, retaining their structural integrity in solution. For a composition of one Tb per eight Yb the nonanuclear clusters display a very efficient upconversion phenomenon with Tb luminescence in the visible region upon 980 nm NIR excitation of Yb. An unprecedented value of 1.0×10-7 was obtained for the UC efficiency at only 2.86 W/cm2, demonstrating these new molecular clusters to be up to 26 times more efficient than the best current molecular systems, the UC being observed down to a concentration of 10 nM.

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upconversion-in-molecular-hetero-nonanuclear-lanthanide-clusters-in-solution - Author's Original
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Published date: 5 November 2020

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Local EPrints ID: 483049
URI: http://eprints.soton.ac.uk/id/eprint/483049
PURE UUID: 1e334b15-f4fd-4d12-a03d-23d3c583138f
ORCID for Richard Knighton: ORCID iD orcid.org/0000-0002-0336-3718

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Date deposited: 20 Oct 2023 16:50
Last modified: 01 Oct 2024 02:11

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Author: Richard Knighton ORCID iD
Author: Lohona K. Soro
Author: Alexandre Lecointre
Author: Guillaume Pilet
Author: Alexandra Fateeva
Author: laurie pontille
Author: Laura Laura Francés-Soriano
Author: Niko Hildebrandt
Author: Loïc J. Charbonnière

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