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Beilstein J. Nanotechnol. 2018, 9, 975–985, doi:10.3762/bjnano.9.91
Figure 1: Schematic diagram of an AFM system and mechanism behind the distortion and artifacts present in AFM...
Figure 2: Illustration of the proposed method for AFM image flattening. (a) Sketch of a simulated AFM height ...
Figure 3: Demonstration of exclusion area extraction through image segmentation. (a) A raw AFM image with a c...
Figure 4: Demonstration of polynomial-fitting-based flattening for an AFM image. (a) A raw AFM image with seg...
Figure 5: Comparison of the three different flattening approaches. (a) A raw nanobubble (NB) AFM image with t...
Figure 6: AFM image flattening with the sliding-window-based approaches. (a) A raw AFM height image with comp...
Figure 7: Comparison of image flattening with different sizes of sliding windows in the sliding-window-based ...
Figure 8: Influence of fitting direction on the flattened images. (a) and (c) are nanobubble images with vert...
Figure 9: Morphological characterization of a standard AFM calibration grating with and without flattening. (...
Figure 10: AFM image segmentation with flattened images. (a) A raw AFM image of nanobubbles (NBs) with artifac...
Beilstein J. Nanotechnol. 2017, 8, 2572–2582, doi:10.3762/bjnano.8.257
Figure 1: Segmentation of nanobubble AFM images using the thresholding method. (a) In a raw AFM image with a ...
Figure 2: AFM height images of nanobubbles and nanodroplets. (a) and (d) are the polystyrene and HOPG surface...
Figure 3: Sketch of the morphological characterization and AFM tip correction for nanobubbles and nanodroplet...
Figure 4: Illustration of the proposed two-step nanobubble/nanodroplet (NB/ND) segmentation based on the sphe...
Figure 5: Schematic diagram showing the principle of the spherical Hough transform. (a) Calculation of gradie...
Figure 6: Demonstration of the spherical Hough transform detection of an nanobubble. (a) Gradient vector calc...
Figure 7: Demonstration of contour expansion operation to obtain the optimized boundary detection for a nanob...
Figure 8: Comparison of nanobubble detection in a raw AFM image with the (a) thresholding method, (b) circle ...
Figure 9: Robustness of the proposed method in nanobubble image segmentation with uneven background. Nanobubb...
Figure 10: Segmentation result for a NB (a) and ND (b) in AFM images using the proposed method. The scale bar ...
Figure 11: Comparison of three different automated morphological characterization methods for nanobubbles. (a)...
Figure 12: Automated morphological characterization of nanobubbles (NBs) and nanodroplets (NDs). (a) The heigh...