Photonic and Nanobiophotonic Properties of Luminescent Lanthanide-Doped Hybrid Organic-Inorganic Materials
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Otros documentos de la autoría: Planelles Aragó, José; Julian-Lopez, Beatriz; Escribano López, Purificación; Viana, Bruno; Cordoncillo, Eloisa; Sánchez, Clément
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Título
Photonic and Nanobiophotonic Properties of Luminescent Lanthanide-Doped Hybrid Organic-Inorganic MaterialsAutoría
Fecha de publicación
2008Editor
Royal Society of ChemistryISSN
09599428Tipo de documento
info:eu-repo/semantics/articlePalabras clave / Materias
Resumen
Research into lanthanide-doped organic–inorganic hybrid materials emerged in the 1990s with the
development of interesting materials for optics: high efficiency and stable solid-state lasers, new
fiber amplifiers ... [+]
Research into lanthanide-doped organic–inorganic hybrid materials emerged in the 1990s with the
development of interesting materials for optics: high efficiency and stable solid-state lasers, new
fiber amplifiers and sensors, devices with upconversion, fast photochromic and non-linear
responses, etc. Their interest relies on the possibility of combining properties of sol–gel host
materials (shaping, tunable refractive index and mechanical properties, corrosion protection,
specific adhesion, etc.) and the well-known luminescence of lanthanide ions (Ln). The fast
development of photonic hybrids allowed the commercial exploitation of products with new or
enhanced characteristics (megajoule pulsed Nd-YAG laser, protective coatings of glasses, screens
or glasswares). However, recently, Ln-hybrid nanocomposites have found new applications in
bio-sensors, bio-analytics and even clinical imaging diagnostics. These applications make use of
the fluorescence properties of lanthanides that make luminescent hybrids ideal candidates for
time-resolved fluoroimmunoassays, DNA hybridation assays, fluorescence imaging microscopy,
or in vivo imaging. As a consequence, the goal of this review is twofold: (i) as a reminder of some
general considerations that must be taken into account to design new optically active Ln-doped
nanocomposites whatever the application field, and (ii) to show the most important advances
achieved in the past years in different areas, paying special attention to bio-medical applications [-]
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