| 1 |
Benassi, Andrea |
Improving Langevin dissipation schemes for frictional simulations |
| 2 |
Cleuren, Bart |
Reconstruction of hysteretic forces by dynamic force microscopy |
| 3 |
Colchero, Jaime |
Noise and dissipation in (true?) non-contact dynamic force spectroscopy performed in ambient conditions |
| 4 |
Ferrini, Gabrele |
Resonance frequency shift due to tip-sample interaction in the thermal oscillations regime |
| 5 |
Gotsmann, Bernd |
Dynamic superlubricity and the elimination of wear on the nanoscale |
| 6 |
Jansen, Lars |
Temperature dependence of stick-slip friction on graphite |
| 7 |
Klocke, Michael |
Relation between lateral forces and dissipation in FM-AFM |
| 8 |
König, Rebekka |
The detachment forces measured when separating soft silicone samples from a laterally oscillating substrate increase with oscillation amplitude |
| 9 |
Krok, Franciszek |
Atomic-scale friction on stepped surfaces of ionic crystals |
| 10 |
Mougin, Karine |
AFM-assisted assembly of gold nanoparticles : Influence of shape, size and coating |
| 11 |
Paolicelli, Guido |
AFM-based investigation to nanoclusters movements on graphite |
| 12 |
Pellegrini, Franco |
Energy dissipation of a magnetic tip on an antiferromagnetic sample |
| 13 |
Santoro, Giuseppe Ernesto |
Broken chiral symmetry and dissipation in nanotube sliding |
| 14 |
Shakhvorostov, Dmitry |
Smart materials behavior of phosphate films |
| 15 |
Such, Bartosz |
Chiral clusters of (+)-(R)-2-aza[6]helicene observed by cryogenic, tuning-fork based STM/NC-AFM |
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