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Beilstein J. Nanotechnol. 2015, 6, 111–123, doi:10.3762/bjnano.6.11
Figure 1: Postsynthetic labeling of quantum dots or SPIOs by incubation of monodisperse, oleic acid-stabilize...
Figure 2: Stability of 51Cr-radiolabeled SPIOs with a polymer shell. (A) Size-exclusion chromatography (SEC) ...
Figure 3: Distribution and degradation of 51Cr-SPIOs in comparison with 51CrCl3 after intravenous injection i...
Figure 4: Whole body retention (WBR) of 51Cr-SPIOs and ionic chromium after intravenous injection. The fitted...
Figure 5: Absorption of 59Fe- or 51Cr-labeled SPIOs in mice. (A) 59Fe-labeled polymer-coated SPIOs or so-call...
Figure 6: Stability of 65Zn-radiolabeled Qdots with a polymer coating. (A) Dialysis of 65Zn-radiolabeled and ...
Figure 7: Organ distribution of Qdots and ionic zinc after intravenous injection into the tail vein of mice. ...
Figure 8: Whole body retention of Qdots and ionic zinc in mice (n = 4). Curves indicate fits using a triple e...
Figure 9: Confocal microscopy of a cryosection of a rat liver 2h after intravenous injection of polymer-coate...
Figure 10: Colocalization of Qdots and lysosomes. J774 cells were incubated with Qdots (red) for 2 h and fixed...
Beilstein J. Nanotechnol. 2015, 6, 36–46, doi:10.3762/bjnano.6.5
Figure 1: Synthesis and characterization of polymer-coated SPIOs with different surface charge due to PEGylat...
Figure 2: Stability of a preformed 125I-transferrin corona after exchange with excess of albumin. A, 125I-tra...
Figure 3: FPLC analysis of remaining transferrin after exchange with additionally added whole plasma (3 fold ...
Figure 4: Stability of transferrin from a preformed corona on the polymer-coated, negatively charged nanopart...
Figure 5: Stability of transferrin in a preformed corona on SPIOs with or without PEGylation (B). FPLC analys...
Figure 6: Fate of a preformed transferrin corona in vivo. A, activity of 59Fe and 125I (1–120 min) in blood; ...
Beilstein J. Nanotechnol. 2014, 5, 1432–1440, doi:10.3762/bjnano.5.155
Figure 1: Characterization of nanocrystals and uptake into liver cells in vivo. (A) Oleic acid-stabilized SPI...
Figure 2: Cryo-electron microscopy of hepatic nanocrystals uptake. SPIOs-micelles (left panel) or polymer-emb...
Figure 3: Impact of internalized SPIOs on gene expression. Wild type BALB/c mice were intravenously injected ...
Figure 4: LDL receptor dependent uptake of QDs-micelles and LDL. Native LDL (red) and QDs-micelles (green) we...
Figure 5: QDs-micelles uptake into hepatocytes is dependent on apolipoprotein E. QDs-micelles (red) were inje...
Figure 6: Impact of QDs– and SPIOs–lipid micelles on hepatic gene expression after ablation of Kupffer cells....