| Sunday, October 19 |
| Arrival in Antalya |
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| Monday, October 20 |
| 8.50-9.00 | E. Meyer Introduction to ESF-Nanotribo |
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| Contact mechanics |
| 9.00-9.40 | B. Persson, Theory of rubber friction |
| 9.40-10.05 | R. Buzio, Contact mechanics of fractal surfaces |
| 10.05-10.45 | K. Wahl, Nanoscale Studies of Contact Mechanics |
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| 10.45-11.15 | Coffee Break |
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| Adhesion, Rupture |
| 11.15-11.40 | J. Klafter, A New Look at Dynamic Force Spectroscopy of Adhesion Bonds |
| 11.40-12.05 | M. Urbackh, Collective rupture of adhesion bonds and dynamics of friction |
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| Lunch and Afternoon-Excursion |
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| Tuesday, October 21 |
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| Friction, Lubrication,Thin Films |
| 9.00-9.40 | A. Erdemir, Nano-scale Engineering and Characterization of Superlow Friction Carbon Films |
| 9.40-10.05 | J.P. Celis, Nanotribology of MoSx coatings investigated by oscillatine LFM |
| 10.05-10.30 | M. Mueser, Sliding-induced non-equilibrium in confined systems |
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| 10.30-11.00 | Coffee Break |
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| 11.00-11.40 | S. Granick, From Microfluidics to Nanofluidics |
| 11.40-12.05 | Th. Becker, Nanofluidics: Viscous Dissipation in Layered Liquid Films |
| 12.05-12.30 | P. Richetti, Friction between two boundary lubricated surfaces in solution |
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| 12.30-14.00 | Lunch |
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| Models and theory I |
| 14.00-14.40 | U. Landman, Frictional forces and Amontons Law: From the molecular to the macroscopic scale |
| 14.40-15.05 | U. Tartaglino, Simulations of lubricant squeez-out: the role of adhesion vs. viscosity |
| 15.05-15.30 | I.M. Sivebaek, Lubricant layering transitions and wear |
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| 15.30-16.00 | Coffee break |
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| Models and theory II |
| 16.00-16.25 | E. Brener, Friction and fracture: Stick-slip motion |
| 16.25-16.50 | A. Volokitin, Resonant photon tunneling enhancement of the van der Waals friction |
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| 17.00-19.00 | Poster Session |
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| 20.00 | Dinner |
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| 21.30 | Steering committee meeting |
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| Wednesday, October 22 |
|
| Friction, Stick-Slip |
| 9.00-9.40 | R. Carpick, The surface science and nanotribology of carbon-based films: The ultimate materials for micro- and nano-machines? |
| 9.40-10.05 | C. Fusco, Load and temperature dependence of atomistic sliding friction: a theoretical study |
| 10.05-10.30 | R. Bennewitz, Lateral force and dissipation in atomic friction processes |
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| 10.30-11.00 | Coffee Break |
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| 11.00-11.25 | M. Dienwiebel, Atomic-scale observation of superlubricity |
| 11.25-12.00 | A. Kulik, An application of friction force microscopy to study the lectin-carbohydrate interaction |
| 12.00-12.25 | K. Mougin, Nanoscale friction and wetting at representative ensemble of model surfaces |
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| 12.25-14.00 | Lunch |
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| Dissipation and dynamic force microscopy |
| 14.00-14.25 | A. Oral, A Dual Fiber Interferometer based nc-AFM with Small Oscillation Amplitudes:
Investigation of Lateral Forces |
| 14.25-14.50 | C. Ritter Manipulation of nanoscale particles and study of particle-substrate interaction in
dynamic scanning force microscopy |
| 14.50-15.15 | L. Kantorovich, Adhesion and Stochastic Mechanisms of Energy Dissipation in Non-
Contact Atomic Force Microscopy |
| 15.15-15.40 | A. L. Shluger, The interaction of Si dangling bonds with insulating surfaces |
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| 15.40-16.15 | Coffee Break |
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| Quantum wires, ripples, wear |
| 16.15-16.40 | A. Garcia-Martin, Quantum conductance in semimetallic bismuth nanocontacts |
| 16.40-17.05 | A. Lohmus, A. Pokropivny, In situ transformations of gold contacts studied by TEM/AFM and
MD/TM simulations |
| 17.05-17.30 | D. Erts, Force interactions between AFM tip and individual DNA oligomers |
| 17.30-17. 55 | A. Socoliuc, Nanowear: From atomic abrasion to ripples |
| 17.55-18.20 | K. Poehlman, Energetic approach to wear in lubricated metal-metal contacts |
| 18.20-18.30 | Concluding remarks |
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| 19.30 | Dinner |
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| Poster Session |
| P1 T. Gyalog and M. Guggisberg, Atomic friction in Education and virtual experiments |
| P2 E. Gnecco, Hopping dynamics of a nanotip sliding on a periodic surfaces |
| P3 G. Tanasa, Atomic-scale friction study on crystalline surfaces: temperature and load dependence |
| P4 J. Amir, Ab-initio calculations of atomic friction on the Diamond C(111)-2x1-H |
| P5 A. Galliano, Adhesive and tribological properties of elastomers at macroscopic and nanoscopic scales |
| P6 V.N. Samoilov, Squeezing wetting and nonwetting liquids |
| P7 K. Nemciauskas, Nanolithography with AFM |
| P8 R. Lohmus, Nanotribological study of contacts and nanowires inside TEM |
| P9 T. Cuberes, Influence of ultrasonic vibration on the mechanisms of nanoscale friction |
| P10R. Buzio and F.Buatier de Mongeot FFM investigation of sliding friction on nanostructured surfaces |
| P11 B. Stegemann, Morphology, structure and nanomanipulation of supported antimony nanoparticles on MoS2 and HOPG |
| P12 A. Carlin, Observation of depinning phenomena in the nanofriction of Kr films physisorbed on Gold |
| P13 C. Kajdas, Tribochemical reaction mechanism vs. the nucleophilic substitution reaction mechanism SN2: Differences and Similarities |
| P14:B. Such, Noncontact AFM imaging of reconstructed InSb(001) and GaAs(001) surfaces |
| P15 I. Kink, Nanoscale dissipation of radiation energy in solid targets |
| P16 C. Fusco, Load and temperature dependence of atomistic sliding friction: a theoretical study |
| P17 M. D’Acunto, Limit cycles and kinetic friction |
| P18 P. Ponthiaux, Nano-scale studies of wear |
| P19 T. Trevetan, Atomistic Simulations of Dissipation in Non-Contact Atomic Force Microscopy |
| P20 I. Hussainova, Nanoscale dissipation of radiation energy in solid targets |
| P21 G. Mistura, UHV-apparatus for friction measurements with a QCM technique |
| P22 M. Lekka, An application of friction force microscopy to study the lectin–carbohydrate interaction |
| P23 Mehrdad Atabak , A Dual Fiber Interferometer based nc-AFM with Small Oscillation Amplitudes: Investigation of Lateral Forces |
