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Beilstein J. Nanotechnol. 2019, 10, 804–810, doi:10.3762/bjnano.10.80
Figure 1: (a) STM image of a 160 nm wide, one-layer thick graphene flake (encircled); (b) cut out portion and...
Figure 2: (a) Cut-out portion of the STM image showing the final superlattice with [210] tearing direction nu...
Figure 3: (inset) Sphere–plane geometry with an atomically sized sphere of radius R1 at the tip side (A-side)...
Figure 4: Force-vs-distance (x) curve according to Equation 3 plotted for s = 5 nm.
Beilstein J. Nanotechnol. 2012, 3, 658–666, doi:10.3762/bjnano.3.75
Figure 1: Structure models of 2CHd-10 (inversion symmetry) and 1CHn-10 (asymmetric). The coloured region repr...
Figure 2: AFM images of randomly oriented (a) 2CHd-10 crystallites and (b) 1CHn-10 fibril bundles on HOPG obt...
Figure 3: AFM images of (a) 2CHd-14 and (b) 2CHd-6 on HOPG taken to demonstrate the capability of the 2CHd-n ...
Figure 4: (a) STM image of two adjacent 2CHd-10 elementary fibrils on HOPG. Imaging parameters are Vt = 1.3 V...
Figure 5: (a) Planar-sheet model (net) of a 2CHd-10 fibril section. The dashed line is drawn parallel to the ...
Figure 6: (a) STM image showing a single-strand and a three-strand fibril of 1CHn-10 on HOPG. Imaging paramet...
Figure 7: (a) Planar sheet (net) model (for representational purpose only) of a 1CHn-10 fibril section. The d...