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Literature DB >> 24995540

Er:Yb:NaY2F5O up-converting nanoparticles for sub-tissue fluorescence lifetime thermal sensing.

Ol A Savchuk¹, P Haro-González, J J Carvajal, D Jaque, J Massons, M Aguiló, F Díaz.

Abstract

Non-contact thermometry is essential in biomedical studies requiring thermal sensing and imaging with high thermal and spatial resolutions. In this work, we report the potential use of Er:Yb:NaYF4 and Er:Yb:NaY2F5O up-conversion nanoparticles as thermal sensors by means of lifetime based luminescent thermometry. We demonstrate how Er:Yb:NaY2F5O nanocrystals present a higher thermal sensitivity than the Er:Yb:NaYF4 ones and that their lifetime thermal coefficient is comparable to those corresponding to other nano-sized luminescent systems already used for high resolution lifetime fluorescence thermal sensing. We evaluate the potential use of Er:Yb:NaY2F5O nanoparticles as lifetime based thermal probes by providing the first experimental evidence on sub-tissue lifetime fluorescence thermal sensing by using up-conversion nanoparticles in an ex vivo experiment.

Entities: Chemical

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Year: 2014 PMID： 24995540 DOI： 10.1039/c4nr02305f

Source DB: PubMed Journal: Nanoscale ISSN： 2040-3364 Impact factor: 7.790

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Cited

8 in total

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Journal: Angew Chem Int Ed Engl Date: 2020-07-02 Impact factor: 15.336

5. Apparent self-heating of individual upconverting nanoparticle thermometers.

Authors: Andrea D Pickel; Ayelet Teitelboim; Emory M Chan; Nicholas J Borys; P James Schuck; Chris Dames
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6. Correlation between the Covalency and the Thermometric Properties of Yb³⁺/Er³⁺ Codoped Nanocrystalline Orthophosphates.

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Journal: J Phys Chem C Nanomater Interfaces Date: 2021-01-21 Impact factor: 4.126

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Journal: Biosensors (Basel) Date: 2022-02-19

8. Investigation on optical temperature sensing behaviour via Ag island-enhanced luminescence doped β-NaGdF₄:Yb³⁺/Tm³⁺ films/microfibers.

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