Single-Molecule Tribology: Force Microscopy Manipulation of a Porphyrin Derivative on a Copper Surface

The low-temperature mechanical response of a single porphyrin molecule attached to the apex of an atomic force microscope (AFM) tip during vertical and lateral manipulations is studied. We find that approach–retraction cycles as well as surface scanning with the terminated tip result in atomic-scale...

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Published in	ACS nano Vol. 10; no. 1; pp. 713 - 722
Main Authors	Pawlak, Rémy, Ouyang, Wengen, Filippov, Alexander E, Kalikhman-Razvozov, Lena, Kawai, Shigeki, Glatzel, Thilo, Gnecco, Enrico, Baratoff, Alexis, Zheng, Quanshui, Hod, Oded, Urbakh, Michael, Meyer, Ernst
Format	Journal Article
Language	English
Published	United States American Chemical Society 26.01.2016
Subjects	nanotribology Cu porphyrin density functional theory Prandtl−Tomlinson atomic force microscopy friction tip termination
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Abstract	The low-temperature mechanical response of a single porphyrin molecule attached to the apex of an atomic force microscope (AFM) tip during vertical and lateral manipulations is studied. We find that approach–retraction cycles as well as surface scanning with the terminated tip result in atomic-scale friction patterns induced by the internal reorientations of the molecule. With a joint experimental and computational effort, we identify the dicyanophenyl side groups of the molecule interacting with the surface as the dominant factor determining the observed frictional behavior. To this end, we developed a generalized Prandtl–Tomlinson model parametrized using density functional theory calculations that includes the internal degrees of freedom of the side group with respect to the core and its interactions with the underlying surface. We demonstrate that the friction pattern results from the variations of the bond length and bond angles between the dicyanophenyl side group and the porphyrin backbone as well as those of the CN group facing the surface during the lateral and vertical motion of the AFM tip.
AbstractList	The low-temperature mechanical response of a single porphyrin molecule attached to the apex of an atomic force microscope (AFM) tip during vertical and lateral manipulations is studied. We find that approach-retraction cycles as well as surface scanning with the terminated tip result in atomic-scale friction patterns induced by the internal reorientations of the molecule. With a joint experimental and computational effort, we identify the dicyanophenyl side groups of the molecule interacting with the surface as the dominant factor determining the observed frictional behavior. To this end, we developed a generalized Prandtl-Tomlinson model parametrized using density functional theory calculations that includes the internal degrees of freedom of the side group with respect to the core and its interactions with the underlying surface. We demonstrate that the friction pattern results from the variations of the bond length and bond angles between the dicyanophenyl side group and the porphyrin backbone as well as those of the CN group facing the surface during the lateral and vertical motion of the AFM tip.
Author	Filippov, Alexander E Kalikhman-Razvozov, Lena Pawlak, Rémy Meyer, Ernst Urbakh, Michael Ouyang, Wengen Gnecco, Enrico Zheng, Quanshui Baratoff, Alexis Kawai, Shigeki Hod, Oded Glatzel, Thilo
AuthorAffiliation	Department of Physical Chemistry, School of Chemistry, The Raymond and Beverly Sackler Faculty of Exact Sciences University of Basel Center for Nano and Micro Mechanics Tsinghua University Otto Schott Institute of Materials Research (OSIM) National Academy of Sciences of Ukraine The Sackler Center for Computational Molecular and Materials Science Tel Aviv University Friedrich Schiller University Jena Department of Physics Donetsk Institute for Physics and Engineering
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Title	Single-Molecule Tribology: Force Microscopy Manipulation of a Porphyrin Derivative on a Copper Surface
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