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Beilstein J. Nanotechnol. 2018, 9, 1239–1246, doi:10.3762/bjnano.9.115
Figure 1: Perspective snapshot of the formed nanoparticle containing 20000 Al atoms.
Figure 2: Time dependencies of temperature T of the system, velocity Vy and lateral position yCM of the cente...
Figure 3: Substrate force as a function of the lateral position of the center of mass of the nanoparticles: (...
Figure 4: Friction force as a function of the contact area with confidence intervals of the approximation at ...
Figure 5: Shear stress as a function of the contact area with confidence intervals of the approximation at a ...
Figure 6: A nanoparticle (green) on a substrate (black) when the interaction between the particle and the sub...
Figure 7: Side view of a Pd nanoparticle with 20000 atoms (the horizontal solid line is the graphene plane) a...
Figure 8: Friction force versus temperature with confidence intervals of the second-degree polynomial approxi...
Figure 9: Radial distribution function for the Al and Pd nanoparticles containing 20000 atoms for the bulk cr...
Figure 10: (A, C) Side and (B, D) bottom views of (A, B) Al and (C, D) Pd nanoparticles containing 20000 atoms...
Beilstein J. Nanotechnol. 2014, 5, 1341–1348, doi:10.3762/bjnano.5.147
Figure 1: Scanning electron microscopy picture of a mould of wet human wrist skin.
Figure 2: 3D surface profiles of a mould of wet human wrist skin obtained by using white light interferometry...
Figure 3: AFM images of a mould of wet human skin taken at (a) lower and (b) higher resolution.
Figure 4: The power spectra as a function of the wave vector (log10–log10 scale), based on AFM topography dat...
Figure 5: The power spectra as a function of the wave vector (log10–log10 scale). The dashed line denoted by b...
Figure 6: The model of the skin used in the calculations. The elastic modulus of the bulk skin is E1 = 20 kPa...
Figure 7: The friction coefficient of skin for a glass ball (R = 0.8 cm) at a sliding velocity of 0.8 cm/s an...
Figure 8: The ratio of the contact area A to the area of the nominal contact area A0 as a function of the low...
Figure 9: The area of real contact (in thousandths of the nominal contact area, A0) as a function of the aver...