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Literature DB >> 23991942

Obtaining detailed structural information about supramolecular systems on surfaces by combining high-resolution force microscopy with ab initio calculations.

Shigeki Kawai¹, Ali Sadeghi, Feng Xu, Xu Feng, Lifen Peng, Peng Lifen, Rémy Pawlak, Thilo Glatzel, Alexander Willand, Akihiro Orita, Junzo Otera, Stefan Goedecker, Ernst Meyer.

Abstract

State-of-the art experimental techniques such as scanning tunneling microscopy have great difficulties in extracting detailed structural information about molecules adsorbed on surfaces. By combining atomic force microscopy and Kelvin probe force microscopy with ab initio calculations, we demonstrate that we can obtain a wealth of detailed structural information about the molecule itself and its environment. Studying an FFPB molecule on a gold surface, we are able to determine its exact location on the surface, the nature of its bonding properties with neighboring molecules that lead to the growth of one-dimensional strips, and the internal torsions and bendings of the molecule.

Year: 2013 PMID： 23991942 DOI： 10.1021/nn403672m

Source DB: PubMed Journal: ACS Nano ISSN： 1936-0851 Impact factor: 15.881

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Cited

14 in total

1. On-Surface Synthesis of a Dicationic Diazahexabenzocoronene Derivative on the Au(111) Surface.

Authors: Kalyan Biswas; José I Urgel; Kun Xu; Ji Ma; Ana Sánchez-Grande; Pingo Mutombo; Aurelio Gallardo; Koen Lauwaet; Benjamin Mallada; Bruno de la Torre; Adam Matěj; José M Gallego; Rodolfo Miranda; Pavel Jelínek; Xinliang Feng; David Écija
Journal: Angew Chem Int Ed Engl Date: 2021-10-21 Impact factor: 16.823

Obtaining detailed structural information about supramolecular systems on surfaces by combining high-resolution force microscopy with ab initio calculations.

1. On-Surface Synthesis of a Dicationic Diazahexabenzocoronene Derivative on the Au(111) Surface.

Review 2. Resolving Intra- and Inter-Molecular Structure with Non-Contact Atomic Force Microscopy.

3. Chemical structure imaging of a single molecule by atomic force microscopy at room temperature.

4. Van der Waals interactions and the limits of isolated atom models at interfaces.

5. Mapping the electrostatic force field of single molecules from high-resolution scanning probe images.

6. Direct quantitative measurement of the C═O⋅⋅⋅H-C bond by atomic force microscopy.

7. Indications of chemical bond contrast in AFM images of a hydrogen-terminated silicon surface.

8. Multiple heteroatom substitution to graphene nanoribbon.

9. Atomically controlled substitutional boron-doping of graphene nanoribbons.

10. Advanced atomic force microscopy techniques III.