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1 article(s) from Wezisla, Sabine

Stick–slip behaviour on Au(111) with adsorption of copper and sulfate

Nikolay Podgaynyy,
Sabine Wezisla,
Christoph Molls,
Shahid Iqbal and
Helmut Baltruschat

Beilstein J. Nanotechnol. 2015, 6, 820–830, doi:10.3762/bjnano.6.85

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Figure 1: Cyclic voltammogram in 0.05 M H₂SO₄ + 4 × 10⁻⁴ M CuSO₄. v = 50 mV/s.

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Figure 2: Friction image of Au(111) (in 0.05 M H₂SO₄ + 4 × 10⁻⁴ M CuSO₄) with a variation of normal load; E =...

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Figure 3: a) Friction force as a function of normal load. Green triangles: E = 0 V (Cu monolayer); red circle...

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Figure 4: Stick–slip atomic resolution and cross section analysis for a) Au(111) at E = 270 mV; F_N = 80 nN; s...

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Figure 5: Stick–slip atomic resolution and cross section analysis for a potential jump from 320 mV (Au(111)/s...

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Figure 6: Stick–slip atomic resolution and cross section analysis for a potential jump from 0 mV (full Cu adl...

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Figure 7: Copper monolayer friction images at F_N = a) 5, 15 nN; b) 27, 40 nN; c) 55, 70 nN and d) 82, 100 nN.

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Figure 8: a) Typical cross sections from Figure 7 at F_N = 15, 55 and 82 nN. b) Schematic illustration of the √7 × √3 ...

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Figure 9: Friction force as a function of normal load (data, e.g., from Figure 8a).

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Figure 10: Transition from irregular to regular stick–slip on a copper monolayer a) AFM image at three differe...

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Figure 11: Transition between regular and irregular stick–slip on copper 2/3 during an increase (а) and a decr...

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Figure 12: Friction images on Au(111). a) atomic resolution on Au(111) (no transition to non-stick–slip at thi...

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Figure 13: Cyclic voltammogram of Au(111) in 0.05 M H₂SO₄ + 4 × 10⁻⁴ M CuSO₄ as shown in Figure 1. Normal force region...

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Figure 14: Force–distance curves at potentials of a) 220 mV, b) 150 mV. A large snap-off force due to adhesion...

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Full Research Paper

Published 26 Mar 2015

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