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Beilstein J. Nanotechnol. 2020, 11, 1525–1541, doi:10.3762/bjnano.11.135
Figure 1: Schematic of V-shaped cantilevers with different geometrical parameters.
Figure 2: Tip trajectory of a V-shaped cantilever interacting with a Au sample (L = 85 µm, = 15 µm, bref = 8...
Figure 3: Ratio of second eigenmode to first eigenmode as a function of the length of V-shaped cantilevers fo...
Figure 4: Second eigenmode phase difference between Au and PS versus setpoint for a given cantilever length. ...
Figure 5: Ratio of second eigenmode to first eigenmode as a function of the triangle base width (b) of V-shap...
Figure 6: Second eigenmode phase difference between Au and PS as a function of the setpoint for a given canti...
Figure 7: Ratio of second eigenmode to first eigenmode versus each arm’s width () of V-shaped cantilevers for...
Figure 8: Phase difference of the Second eigenmode between Au and PS as a function of the setpoint for a give...
Figure 9: Ratio of second eigenmode to first eigenmode versus thickness (t) of V-shaped cantilevers for: freq...
Figure 10: Second eigenmode phase difference between Au and PS as function of the setpoint for different canti...
Figure 11: Amplitude versus frequency response: (a) 1st eigenmode frequency tune curve of the long V-shaped ca...
Figure 12: Simulation results of three commercial cantilevers in bimodal AFM done on Au and PS polymers. Verti...
Figure 13: Bimodal AFM images of Au–PS samples. Left column: MULTI75G, middle column: TR400Long, right column:...
Figure 14: Bimodal AFM images of PS-LDPE samples. Left column: MULTI75G, middle column: TR400Long, right colum...
Beilstein J. Nanotechnol. 2015, 6, 1072–1081, doi:10.3762/bjnano.6.108
Figure 1: (a) Scheme of the excitation and detection signals in bimodal AM configuration. (b) Definition of p...
Figure 2: Bimodal AM in the attractive regime. (a) Phase shift dependence on the amplitude ratio of the first...
Figure 3: Phase contrast in bimodal AM in the presence of dissipation (attractive regime). (a) Phase shift de...
Figure 4: (a) Total dissipated power as a function of A1/A01 (gold). (b) Total dissipated power as a function...
Figure 5: Inverted bimodal AM. (a) Phase shift dependence on the amplitude ratio (A2/A02). The value of the H...
Figure 6: Comparison between direct and inverted bimodal AM. (a) Amplitude ratio dependence on the average ti...
Figure 7: Bimodal AM in the repulsive regime. (a) Phase shift dependence on the amplitude ratio of the first ...
Figure 8: Trimodal AFM in the attractive regime. (a) Phase shift of the second mode dependence on A1/A01 for ...
Figure 9: Bimodal versus trimodal AM (attractive regime). (a) Phase shift of the second mode dependence on A1/...