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| The findings from this study indicate that following intravenous injection in mice, quantum dots may localize in important organs such as the kidney or liver, and they have a very long biological half-life. Such observations are important, given the potential for the use of quantum dots for biological imaging purposes in humans. |
Tags: ICP-MS, kinetics, Nanoparticles, quantum dot 705, redistribution, mice
New to the Repository
- Characterization of Grafting Density and Binding Efficiency of DNA and Proteins on Gold Surfaces
- Nanoelectronic devices from self-organized molecular switches
- Scattering of g-process longitudinal optical phonons at hotspots in silicon
- Nanoscaled Biocatalysts and Self-Assembling Protein Polymers
- Sub-100 nm lithography using ultrashort wavelength of surface plasmons
- Electrochemical nanopatterning of Ag on solid-state ionic conductor RbAg[sub 4]I[sub 5] using atomic force microscopy
- Analytic band Monte Carlo model for electron transport in Si including acoustic and optical phonon dispersion
- DNA-Based Programmed Assembly of Gold Nanoparticles on Lithographic Patterns with Extraordinary Specificity
- AFM-Induced Amine Deprotection: Triggering Localized Bond Cleavage by Application of Tip/Substrate Voltage Bias for the Surface Self-Assembly of Nanosized Dendritic Objects
- Plasmonic Nanolithography
