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Cutting and self-healing molecular wires studied by dynamic force microscopy
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Citations
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References
2009
Year
EngineeringMolecular Self-assemblyMolecule-based MaterialBiomedical EngineeringChemistrySelf-healing SurfaceSoft MatterNanotribologyKbr SubstrateDynamic Force MicroscopyNanomechanicsBiophysicsMaterials ScienceMolecular SolidMolecular MaterialPhysical ChemistryRoom TemperatureMicrofabricationNatural SciencesSelf-assemblyScanning Force MicroscopyMolecular SwitchTip-induced Deformations
Tip-induced deformations of meso-(4-cyanophenyl)-substituted Zn(II) porphyrin molecular wires self-assembled on KBr(001) were studied by frequency modulation dynamic force microscopy. Since the wires are weakly bonded to the KBr substrate and to the neighboring molecules, they can easily be cut by the scanning tip. We found that the damaged molecular wires self-healed at room temperature.
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