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Beilstein J. Nanotechnol. 2012, 3, 731–746, doi:10.3762/bjnano.3.83
Figure 1: Histology of pig skin (photography reprinted from [7]) and rat skin (photography reprinted from [6]), and...
Figure 2: (a) Load–displacement curves and (b) nanohardness and elastic modulus data for rat and pig skin.
Figure 3: AFM topography maps and roughness profiles taken at arrows indicated for virgin rat skin, damaged s...
Figure 4: (a) RMS roughness, (b) contact angle and (c) coefficient of friction on nanoscale and schematic car...
Figure 5: Friction force as a function of normal load curves for virgin rat and pig skin.
Figure 6: Effect of (a) velocity, (b) normal load, and schematic cartoons of tip–skin interaction, and (c) ef...
Figure 7: Effect of the number of cycles on the coefficient of friction on the nanoscale for virgin rat skin,...
Figure 8: Coefficient of friction and schematic cartoons of the tip–skin interaction on macroscale for virgin...
Figure 9: Effect of (a) velocity, (b) normal load, and (c) number of cycles on the coefficient of friction on...
Figure 10: AFM topography maps and roughness profiles taken at arrows indicated for virgin pig skin, damaged s...
Figure 11: (a) RMS roughness, (b) contact angle, and (c) coefficient of friction on the nanoscale of virgin pi...
Figure 12: Effect of (a) velocity, (b) normal load and (c) relative humidity on the coefficient of friction on...
Figure 13: Effect of the number of cycles on the coefficient of friction on the nanoscale for virgin pig skin,...
Figure 14: Coefficient of friction on macroscale for virgin pig skin, damaged skin, treated virgin skin and tr...
Figure 15: Effect of (a) velocity, (b) normal load and (c) number of cycles on the coefficient of friction on ...