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Beilstein J. Nanotechnol. 2015, 6, 281–292, doi:10.3762/bjnano.6.26
Scheme 1: CdSe/ZnS quantum dot with the ligands used in this study.
Figure 1: Normalized impedance (filled square) and mitochondrial activity (filled triangle) of MDCKII cells a...
Figure 2: (a) Normalized impedance and mitochondrial activity of MDCKII cells as a function of exposure time ...
Figure 3: Composite images of QD fluorescence (red) and cell autofluorescence (green) together with correspon...
Figure 4: Composite images of QD fluorescence (red) and cell autofluorescence (green) together with correspon...
Figure 5: Wide-field microscopy images and corresponding diffusion constants of 10 nM solutions of CA–QDs (a,...
Figure 6: Types of organized movement observed in MDCKII cells after 4 h of exposure to CA–QDs (a), DHLA–QDs ...
Figure 7: Fluorescent micrographs of untreated (a,b) and pre-incubated with 100 µM nocodazole (c,d) MDCKII ce...
Beilstein J. Nanotechnol. 2015, 6, 223–231, doi:10.3762/bjnano.6.21
Figure 1: Confluent MDCK II cells treated with different concentrations of CTAB functionalized gold nanorods....
Figure 2: Dark-field/fluorescence microscopy image (overlay) of confluent MDCK II cells treated with gold nan...
Figure 3: Mechanical analysis of confluent MDCK II cells. Averaged force indentation curves (n > 60) obtained...
Figure 4: An adherent cell or apical membrane of an epithelial cell in confluent environment represented by a...
Figure 5: Young’s moduli of MDCK II cells treated with different concentrations of gold nanorods and CTAB sol...
Figure 6: Equilibrium frequency and dissipation change (after 24 h of incubation) of a confluent MDCK II cell...