Discrete polygonal supramolecular architectures of isocytosine-based Pt(II) complexes at the solution/graphite interface
Chem. Comm. 52, 11163 (2016).
M. El Garah, S. Sinn, A. Dianat, A. Santana-Bonilla, R. Gutierrez, L. De Cola, G. Cuniberti, A. Ciesielski, and P. Samorì.
Journal DOI: https://doi.org/10.1039/c6cc05087e

Polygonal supramolecular architectures of a Pt(II) complex including trimers, tetramers, pentamers and hexamers were self-assembled via hydrogen bonding between isocytosine moieties; their structure at the solid/liquid interface was unravelled by in situ scanning tunneling microscopy imaging. Density functional theory calculations provided in-depth insight into the thermodynamics of their formation by exploring the different energy contributions attributed to the molecular self-assembly and adsorption

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Discrete polygonal supramolecular architectures of isocytosine-based Pt(II) complexes at the solution/graphite interface
Chem. Comm. 52, 11163 (2016).
M. El Garah, S. Sinn, A. Dianat, A. Santana-Bonilla, R. Gutierrez, L. De Cola, G. Cuniberti, A. Ciesielski, and P. Samorì.
Journal DOI: https://doi.org/10.1039/c6cc05087e

Polygonal supramolecular architectures of a Pt(II) complex including trimers, tetramers, pentamers and hexamers were self-assembled via hydrogen bonding between isocytosine moieties; their structure at the solid/liquid interface was unravelled by in situ scanning tunneling microscopy imaging. Density functional theory calculations provided in-depth insight into the thermodynamics of their formation by exploring the different energy contributions attributed to the molecular self-assembly and adsorption

Cover
©https://doi.org/10.1039/c6cc05087e
Share


Involved Scientists