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Beilstein J. Nanotechnol. 2013, 4, 510–516, doi:10.3762/bjnano.4.60
Figure 1: AFM topography scans of desmin filaments under ambient conditions. a) Filaments assembled from wild...
Figure 2: a) Scheme of the experimental setup. b) The sample illumination and fluorescence readout is correla...
Figure 3: aSNOM dataset of TMV (a–c, 5×5 µm2). a) Blurry far-field fluorescence acquired at the upper reversa...
Figure 4: aSnom data of fluorescently labeled desmin filaments. a) Combined fluorescence and topography datas...
Figure 5: Histogram of the FWHM of fluorescence peaks obtained from labeled desmin filaments.
Beilstein J. Nanotechnol. 2011, 2, 645–652, doi:10.3762/bjnano.2.68
Figure 1: a) Schematic image of the combined TIRFM–AFM setup. The AFM is placed on top of an inverted microsc...
Figure 2: Integrated fluorescence intensity of a single quantum dot as a function of tip distance. The bin si...
Figure 3: Separated contributions to the external control of fluorescence emission, for several different tip...
Figure 4: a) Distribution of the field intensity |Ez|2 near an evanescently illuminated gold tip 35 nm above ...
Figure 5: Relative emission rate for several surface distances and tip opening angles estimated by the observ...
Figure 6: Logarithmic field distribution of a single dipole emitter perpendicular to a glass–air interface fo...
Figure 7: Detection efficiency of an objective lens (numerical aperture (NA) = 1.45) as a function of tip dis...