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Beilstein J. Nanotechnol. 2024, 15, 416–425, doi:10.3762/bjnano.15.37
Figure 1: Scanning tunneling microscopy and spectroscopy of defect types 1 and 2 in graphene on Ir(111). (a) ...
Figure 2: Atomic force and scanning tunneling microscopy of defect types 1 and 2 in graphene on Ir(111). (a) ...
Figure 3: Vertical probe–surface distance dependence of AFM topographies of defect 1. (a–c) Constant-height A...
Figure 4: Total vertical force F as a function of tip excursion and lateral evolution of the point of maximum...
Figure 5: Hysteresis loops in approach (filled symbols) and retraction (open symbols) Δf and I traces. Variat...
Beilstein J. Nanotechnol. 2020, 11, 1157–1167, doi:10.3762/bjnano.11.100
Figure 1: (a) Skeletal formula of C42H28 including dimensions. (b) Sketch of the planar molecular configurati...
Figure 2: (a) STM image of C42H28 molecules on Pt(111) (bias voltage: 1 V, tunneling current: 100 pA, size: 1...
Figure 3: Spectra of dI/dV (dots) recorded above the different lobes of C42H28 on Pt(111) (feedback loop para...
Figure 4: (a) STM image of C42H28 molecules on Au(111) (−0.8 V, 50 pA, 30 × 30 nm2). Inset: STM image of a Au...
Figure 5: (a) Spectrum of dI/dV (dots) recorded above a C42H28 phenyl group on Au(111) with the spectroscopic...
Figure 6: (a) STM image of C42H28 molecules on graphene-covered Pt(111) (2 V, 100 pA, 34 × 34 nm2). Inset: Cl...
Figure 7: (a) Spectrum of dI/dV (dots) recorded above a C42H28 phenyl group on graphene-covered Pt(111) (feed...