
By Reinker, P.H.; Warekois, E.P.; Hanford Works.; United States. Dept. of Energy.; Hanford Site (Wash. ).; United States. Dept. of Energy. Office of Scientific and Technical Information
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Chrastina & Schnitzer (2010) reported the synthesis of silver nanoparticles labeled with iodine-125 to track in vivo tissue targeting with SPECT images. Poly(N-vinyl-2-pyrrolidone)capped silver nanoparticles (average size 12 nm) were labeled by chemisorptions, whereby chloramine-T (N-chlorobenzenesulfonamide) was immobilized on a polystyrene backbone. The radio-solution was removed and added to a dispersion of unfunctionalized Ag nanoparticles. Unbound iodide-125 was removed by size exclusion chromatography on Sephadex G-25 columns.
Cai, W. (2009b). Molecular Imaging with Single-Walled Carbon Nanotubes. ; Neretina, S. A. (2009). Gold Nanorods: From Synthesis and Properties to Biological and Biomedical Applications. 48, (December 2009), pp. S. & Kim, S. (2009). Development of a Quadruple Imaging Modality by Using Nanoparticles. 37, (September 2009), pp. A. D. (2007). 1 A Resolution. 5849, (September 2007), pp. L. Y. (2008). Synthesis of 64Cu-Labeled Magnetic Nanoparticles for Multimodal Imaging. A. & Dai, H. (2005). Carbon Nanotubes as Multifunctional Biological Transporters and Near-infrared Agents for Selective Cancer Cell Destruction.
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Pile graphite expansion by Reinker, P.H.; Warekois, E.P.; Hanford Works.; United States. Dept. of Energy.; Hanford Site (Wash. ).; United States. Dept. of Energy. Office of Scientific and Technical Information
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