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

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...

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Published in:	Nanoscale 2014-08, Vol.6 (16), p.9727-9733
Main Authors:	Savchuk, Ol A, Haro-González, P, Carvajal, J J, Jaque, D, Massons, J, Aguiló, M, Díaz, F
Format:	Article
Language:	English
Subjects:	Fluorescent Dyes - chemistry Fluorides - chemistry Metal Nanoparticles - chemistry Metals, Rare Earth - chemistry Particle Size Temperature
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creator	Savchuk, Ol A Haro-González, P Carvajal, J J Jaque, D Massons, J Aguiló, M Díaz, F
description	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.
doi_str_mv	10.1039/c4nr02305f
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source	Royal Society of Chemistry
subjects	Fluorescent Dyes - chemistry Fluorides - chemistry Metal Nanoparticles - chemistry Metals, Rare Earth - chemistry Particle Size Temperature
title	Er:Yb:NaY2F5O up-converting nanoparticles for sub-tissue fluorescence lifetime thermal sensing
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