Artifical nanoparticles of a size and complexity approaching those of several su-pramolecular structures of living systems are being increasingly used as tools for the analysis and manipulation of cells and organisms. This paper focuses on hybrid organ-ic/inorganic nanoparticles of the three most widely used classes, based on their inorganic core: seminconductors, metals and oxides. Their essential properties most relevant to cellular applications are summarised. Current strategies to bring nanoparticles to inter-act with living cells are described, and recent results, both in vitro and in vivo, are illus-trated.
Hybrid Nanoparticles for Cellular Applications
2009
Abstract
Artifical nanoparticles of a size and complexity approaching those of several su-pramolecular structures of living systems are being increasingly used as tools for the analysis and manipulation of cells and organisms. This paper focuses on hybrid organ-ic/inorganic nanoparticles of the three most widely used classes, based on their inorganic core: seminconductors, metals and oxides. Their essential properties most relevant to cellular applications are summarised. Current strategies to bring nanoparticles to inter-act with living cells are described, and recent results, both in vitro and in vivo, are illus-trated.File in questo prodotto:
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