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Luminescent silicon nanoparticles for distinctive tracking of cellular targeting and trafficking

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Abstract

Developing therapeutic nanoparticles that actively target disease cells or tissues by exploiting the binding specificity of receptors presented on the cell surface has extensively opened up biomedical applications for drug delivery and imaging. An ideal nanoparticle for biomedical applications is required to report confirmation of relevant targeting and the ultimate fate in a physiological environment for further verification, e.g. to adapt dosage or predict response. Herein, we demonstrate tracking of silicon nanoparticles through intrinsic photoluminescence (PL) during the course of cellular targeting and uptake. Time-resolved analysis of PL characteristics in cellular microenvironments provides dynamic information on the physiological conditions where the silicon nanoparticles are exposed. In particular, the PL lifetime of the silicon nanoparticles is in the order of microseconds, which is significantly longer than the nanosecond lifetimes exhibited by fluorescent molecules naturally presented in cells, thus allowing discrimination of the nanoparticles from the cellular background autofluorescence in time-gated imaging. The PL lifetime is a physically intensive property that reports the inherent characteristics of the nanoparticles regardless of surrounding noise. Furthermore, we investigate a unique means to inform the lifespan of the biodegradable silicon nanoparticles responsive to local microenvironment in the course of endocytosis. A multivalent strategy of nanoparticles for enhanced cell targeting is also demonstrated with complementary analysis of time-resolved PL emission imaging and fluorescence correlation spectroscopy. The result presents the promising potential of the photoluminescent silicon nanoparticles toward advanced cell targeting systems that simultaneously enable tracking of cellular trafficking and tissue microenvironment monitoring.

Graphical abstract: Luminescent silicon nanoparticles for distinctive tracking of cellular targeting and trafficking

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Article information


Submitted
25 Nov 2019
Accepted
12 Dec 2019
First published
12 Dec 2019

Faraday Discuss., 2020, Advance Article
Article type
Paper

Luminescent silicon nanoparticles for distinctive tracking of cellular targeting and trafficking

G. Kim, G. Lee, M. Kang, M. Kim, Y. Jin, S. Beck, J. Cheon, J. Sung and J. Joo, Faraday Discuss., 2020, Advance Article , DOI: 10.1039/C9FD00124G

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