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Beilstein J. Nanotechnol. 2012, 3, 301–311, doi:10.3762/bjnano.3.34
Figure 1: Illustration of constant-height and constant-Δf imaging modes in nc-AFM. We consider, as an illustr...
Figure 2: (a) Constant-height FM-AFM image of the graphite surface with Hset = 4.3 Å. White and dark circles ...
Figure 3: (a) Atomic structure of the buckled graphene on SiC with the height of graphene atoms classified in...
Figure 4: (a) FM-AFM calculated image of a graphene nanoribbon with Hset = 3.8 Å. The Δf corrugation is 81.68...
Beilstein J. Nanotechnol. 2012, 3, 221–229, doi:10.3762/bjnano.3.25
Figure 1: (a) Molecular scheme and (b) structure of HCPTP optimized in vacuum.
Figure 2: Constant-frequency-shift image of the KBr surface after the deposition of a small amount of molecul...
Figure 3: Upper image: topography and lower image: Kelvin map of a KBr terrace with a higher coverage. Imagin...
Figure 4: Images of a sample annealed at 150 °C after the deposition of the molecules at room temperature. (a...
Figure 5: (a) and (b) are the profiles that correspond to the blue and green lines drawn in Figure 4a; (c) is the prof...
Figure 6: (a) Topographic and (b) Kelvin map of a high molecular coverage annealed to 150 °C; (c) and (d) are...
Figure 7: High resolution topographic images of an MLh domain. A = 2 nm. (a) Δf = −35 Hz, (b) Δf = −50 Hz. Th...
Figure 8: High resolution (a) topographic and (b) Kelvin image of an MLv domain. A = 2 nm, Δf = −20 Hz. The a...
Figure 9: Lowest-energy adsorbed conformation of HCPTP adsorbed on KBr(001). (a) Top and (b) side view. K+ io...
Figure 10: Tentative model of the MLh layer.