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Research Article

1.3 μm emitting SrF2: Nd3+ nanoparticles for high contrast in vivo imaging in the second biological window

Irene Villa1Anna Vedda1Irene Xochilt Cantarelli2Marco Pedroni2Fabio Piccinelli2Marco Bettinelli2Adolfo Speghini2Marta Quintanilla3Fiorenzo Vetrone3Ueslen Rocha4Carlos Jacinto4Elisa Carrasco5Francisco Sanz Rodríguez5Ángeles Juarranz5Blanca del Rosal6Dirk H. Ortgies6Patricia Haro Gonzalez6José García Solé6Daniel Jaque García6( )
Department of Materials ScienceUniversity of Milano-BicoccaVia R. Cozzi 5520125Milano, Italy
Dipartimento di BiotecnologieUniversità di Verona and INSTMUdR VeronaStrada le Grazie 1537134Verona, Italy
Institut National de la Recherche Scientifique-Energie Materiaux et TelecommunicationsUniversité du Quebec, Varennes, QC, PQ J3X 1S2Canada
Grupo de Fotônica e Fluidos ComplexosInstituto de Física, Universidade Federal de Alagoas57072-970Maceió, AlagoasBrazil
Departamento de BiologíaFacultad de CienciasUniversidad Autónoma de MadridCampus de CantoblancoMadrid28049Spain
Fluorescence Imaging GroupDepartamento de Física de MaterialesFacultad de CienciasCampus de CantoblancoUniversidad Autónoma de MadridMadrid28049Spain
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Abstract

Novel approaches for high contrast, deep tissue, in vivo fluorescence biomedical imaging are based on infrared-emitting nanoparticles working in the so-called second biological window (1, 000–1, 400 nm). This allows for the acquisition of high resolution, deep tissue images due to the partial transparency of tissues in this particular spectral range. In addition, the optical excitation with low energy (infrared) photons also leads to a drastic reduction in the contribution of autofluorescence to the in vivo image. Nevertheless, as is demonstrated here, working solely in this biological window does not ensure a complete removal of autofluorescence as the specimen's diet shows a remarkable infrared fluorescence that extends up to 1, 100 nm. In this work, we show how the 1, 340 nm emission band of Nd3+ ions embedded in SrF2 nanoparticles can be used to produce autofluorescence free, high contrast in vivo fluorescence images. It is also demonstrated that the complete removal of the food-related infrared autofluorescence is imperative for the development of reliable biodistribution studies.

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Nano Research
Pages 649-665

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Cite this article:
Villa I, Vedda A, Cantarelli IX, et al. 1.3 μm emitting SrF2: Nd3+ nanoparticles for high contrast in vivo imaging in the second biological window. Nano Research, 2015, 8(2): 649-665. https://doi.org/10.1007/s12274-014-0549-1
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Received: 14 March 2014
Revised: 26 July 2014
Accepted: 28 July 2014
Published: 11 October 2014
© Tsinghua University Press and Springer-Verlag Berlin Heidelberg 2014