Revista de nanomateriales y nanotecnología molecular

Nanopartículas de sílice dopadas con múltiples colorantes y con núcleo-capa: estabilidad e intensidad de señal excepcionales que aprovechan el fenómeno FRET para aplicaciones biomédicas

Pellegrino C, Volpe A, Juris R, Menna M, Calabrese V, Sola F, Barattini C y Ventola A

We present a one-pot synthesis of core-shell silica nanoparticles (SiNPs) as a novel fluorescent probe for biological applications. SiNPs were doped with a different number of dyes to ensure high efficiency Fluorescence Resonance Energy Transfer (FRET). Dyes are individually entrapped in the silica core without a covalent bonding between them. The strong interconnection achieved inside the core, a FRET with efficiency up to 86% was obtained. Nanoparticles called NTB530, NTB575 and NTB660 contain two, three and four different dyes respectively. Nanoparticles can be excited with a common blue laser and characterized by a long Stokes Shift up to the near-IR emission. Photostability, tested under continuous irradiation with a mercury lamp, showed higher stability of our Nanoparticles compared to commercial dyes like Fluorescein and R-Phycoerythrin. To prove the potential application of our Nanoparticle in flow-cytometry, they were conjugated with Anti-Human CD8 antibody and tested in comparison with commercial ones.

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