Programming hierarchical supramolecular nanostructures by molecular design

Yeliang Wang; Magalí Lingenfelder; Stefano Fabris; Guido Fratesi; Riccardo Ferrando; Thomas Classen; Klaus Kern; Giovanni Costantini

doi:10.1021/jp309566s

Programming hierarchical supramolecular nanostructures by molecular design

Yeliang Wang, Magalí Lingenfelder, Stefano Fabris, Guido Fratesi, Riccardo Ferrando, Thomas Classen, Klaus Kern, Giovanni Costantini^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

20 Citations (Scopus)

Abstract

Supramolecular nanostructures with tunable dimensionalities are fabricated by deposition of benzene-carboxylic acids on the Cu(110) surface. By tailoring the number and position of the functional moieties, the structure of the final molecular assemblies can be rationally modified ranging from isolated one-dimensional chains to compact two-dimensional islands. Molecular units are chosen that can assemble through metal-organic and electrostatic interactions. The hierarchy between these intermolecular forces guarantees that a primary organization level, constituted by metal-organic polymeric chains, is developed by all molecular units while the secondary interchain interactions can be arbitrarily adjusted. Scanning tunneling microscopy, density functional theory calculations, and kinetic Monte Carlo simulations are used to characterize and rationalize the experimental findings.

Original language	English
Pages (from-to)	3440-3445
Number of pages	6
Journal	Journal of Physical Chemistry C
Volume	117
Issue number	7
DOIs	https://doi.org/10.1021/jp309566s
Publication status	Published - 21 Feb 2013
Externally published	Yes

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AU - Wang, Yeliang

AU - Lingenfelder, Magalí

AU - Fabris, Stefano

AU - Fratesi, Guido

AU - Ferrando, Riccardo

AU - Classen, Thomas

AU - Kern, Klaus

AU - Costantini, Giovanni

PY - 2013/2/21

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AB - Supramolecular nanostructures with tunable dimensionalities are fabricated by deposition of benzene-carboxylic acids on the Cu(110) surface. By tailoring the number and position of the functional moieties, the structure of the final molecular assemblies can be rationally modified ranging from isolated one-dimensional chains to compact two-dimensional islands. Molecular units are chosen that can assemble through metal-organic and electrostatic interactions. The hierarchy between these intermolecular forces guarantees that a primary organization level, constituted by metal-organic polymeric chains, is developed by all molecular units while the secondary interchain interactions can be arbitrarily adjusted. Scanning tunneling microscopy, density functional theory calculations, and kinetic Monte Carlo simulations are used to characterize and rationalize the experimental findings.

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Programming hierarchical supramolecular nanostructures by molecular design

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