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Beilstein J. Nanotechnol. 2014, 5, 1477–1490, doi:10.3762/bjnano.5.161
Figure 1: An overview of the “zoo” of different NPs concerning their composition, functionality, and fields o...
Figure 2: Hybrid nature of typical NPs, comprising different structural compartments. Reproduced with permiss...
Figure 3: Scheme depicting the different mechanisms of cellular endocytosis. Reproduced with permission from [41]...
Figure 4: Fluorescence microscopy image showing the granular structure of internalized NPs inside A549 lung c...
Figure 5: a) A microparticle has been internalized by an A549 lung cancer cell into an intracellular vesicle ...
Figure 6: Intracellular compartments after internalization of PEG-coated gold NPs as visualized with TEM. The...
Figure 7: TEM images of a) dispersed and b) agglomerated Au NPs. The scale bars correspond to 100 nm. Adopted...
Beilstein J. Nanotechnol. 2014, 5, 1357–1370, doi:10.3762/bjnano.5.149
Figure 1: Scanning electron microscopic image (A) of Ag NPs deposited on a silicon wafer. The particle size d...
Figure 2: Illustrated are triple cell co-cultures at the air–liquid interface and under submerged conditions,...
Figure 3: Ag NP aggregates were found in the upper cell layer of the transwell membrane. A representative ima...
Figure 4: Extracellular LDH release was quantified relative to the untreated control (reference: red dashed l...
Figure 5: The extracellular release of pro-inflammatory markers was analysed by ELISA. Excreted TNF-α (A and ...
Figure 6: 4 and 24 h after cell exposure, the total RNA content was collected. Subsequent analysis by real-ti...