Molecular upconversion nanoparticles for live-cell imaging
Molecular upconversion nanoparticles for live-cell imaging
Precise molecular control has become a highly attractive feature to develop the next generation of upconversion materials for autofluorescence-free deep tissue imaging. However, in aqueous environments, upconversion molecules are orders of magnitude dimmer than inorganic upconversion nanoparticles, thereby strongly limiting their applicability to bioimaging. By encapsulating ca. 1,900 upconversion molecules into sub-40 nm polymer nanoparticles, we show that molecular precision and nanomaterial brightness can be combined into a new type of hybrid nanomaterial. The brightness of these molecular upconversion nanoparticles (UCMol-NPs) is almost on par with widely used inorganic upconversion nanoparticles, permitting the experimental demonstration of live-cell imaging with UCMol-NPs, an important step toward advancing molecular upconversion into the application era. Fabrication, characterization, and modeling of UCMol-NPs with various sizes and loadings reveal that significant brightness enhancement is possible. This will be paramount for advancing upconversion beyond the current limits of inorganic nanoparticles and translating them into clinical applications.
UCNPs, imaging, modeling, nanomaterials, upconverting complexes
7178-7187
Haye, Lucie
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Pini, Federico
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Soro, Lohona Kevin
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Knighton, Richard C.
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Fayad, Nour
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Benard, Magalie
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Gagliazzo, Francesco
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Light, Mark E
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Natile, Marta Maria
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Charbonnière, Loïc J.
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Hildebrandt, Niko
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Reisch, Andreas
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25 February 2025
Haye, Lucie
7316ee97-0805-414f-a711-2874736b9a71
Pini, Federico
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Soro, Lohona Kevin
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Knighton, Richard C.
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Fayad, Nour
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Benard, Magalie
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Gagliazzo, Francesco
f9c292ba-a28b-4845-b510-b1b641f47c15
Light, Mark E
cf57314e-6856-491b-a8d2-2dffc452e161
Natile, Marta Maria
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Charbonnière, Loïc J.
cb976ce4-b45a-493c-bd86-3a5c508678d5
Hildebrandt, Niko
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Reisch, Andreas
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Haye, Lucie, Pini, Federico, Soro, Lohona Kevin, Knighton, Richard C., Fayad, Nour, Benard, Magalie, Gagliazzo, Francesco, Light, Mark E, Natile, Marta Maria, Charbonnière, Loïc J., Hildebrandt, Niko and Reisch, Andreas
(2025)
Molecular upconversion nanoparticles for live-cell imaging.
ACS Nano, 19 (7), .
(doi:10.1021/acsnano.4c16762).
Abstract
Precise molecular control has become a highly attractive feature to develop the next generation of upconversion materials for autofluorescence-free deep tissue imaging. However, in aqueous environments, upconversion molecules are orders of magnitude dimmer than inorganic upconversion nanoparticles, thereby strongly limiting their applicability to bioimaging. By encapsulating ca. 1,900 upconversion molecules into sub-40 nm polymer nanoparticles, we show that molecular precision and nanomaterial brightness can be combined into a new type of hybrid nanomaterial. The brightness of these molecular upconversion nanoparticles (UCMol-NPs) is almost on par with widely used inorganic upconversion nanoparticles, permitting the experimental demonstration of live-cell imaging with UCMol-NPs, an important step toward advancing molecular upconversion into the application era. Fabrication, characterization, and modeling of UCMol-NPs with various sizes and loadings reveal that significant brightness enhancement is possible. This will be paramount for advancing upconversion beyond the current limits of inorganic nanoparticles and translating them into clinical applications.
Text
Molecular_Upconversion_Nanoparticles_for_Live-Cell_Imaging
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Accepted/In Press date: 28 January 2025
e-pub ahead of print date: 12 February 2025
Published date: 25 February 2025
Keywords:
UCNPs, imaging, modeling, nanomaterials, upconverting complexes
Identifiers
Local EPrints ID: 499701
URI: http://eprints.soton.ac.uk/id/eprint/499701
ISSN: 1936-0851
PURE UUID: 16ea8f04-2a10-47f5-aeac-1a38e018491a
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Date deposited: 01 Apr 2025 16:33
Last modified: 22 Aug 2025 02:41
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Contributors
Author:
Lucie Haye
Author:
Federico Pini
Author:
Lohona Kevin Soro
Author:
Richard C. Knighton
Author:
Nour Fayad
Author:
Magalie Benard
Author:
Francesco Gagliazzo
Author:
Marta Maria Natile
Author:
Loïc J. Charbonnière
Author:
Niko Hildebrandt
Author:
Andreas Reisch
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