Surface-confined metal-organic nanostructures from co-directed assembly of linear terphenyl-dicarbonitrile linkers on Ag(111)

U. Schlickum; F. Klappenberger; R. Decker; G. Zoppellaro; S. Klyatskaya; M. Ruben; K. Kern; H. Brune; J. V. Barth

doi:10.1021/jp104518h

Surface-confined metal-organic nanostructures from co-directed assembly of linear terphenyl-dicarbonitrile linkers on Ag(111)

U. Schlickum, F. Klappenberger, R. Decker, G. Zoppellaro, S. Klyatskaya, M. Ruben, K. Kern, H. Brune, J. V. Barth

Chair of Experimental Physics of Functional Spin-Systems

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

49 Scopus citations

Abstract

A detailed structural analysis of the surface supported self-assembly of terphenyl-4,4′-dicarbonitrile molecules (NC-Ph₃-CN) linked by Co adatoms on Ag(111) reveals different surface patterns depending on the constraints applied to the system. Without constraints, i.e., sufficient mobility and absence of space limitations at the surface, extended regular honeycomb nanomeshes are formed. On the basis of high-resolution scanning tunneling microscopy images, an atomistic model is derived showing the crystallographic orientation of the molecules and a commensurate alignment of the honeycomb networks, which exist in two rotational domains on the Ag(111) atomic lattice. For Co deficiency, an additional star-like Co-directed motif has been identified, and fully disordered networks are present if space limitations are imposed. In these cases, nodal motifs exist showing between 3- and 6-fold coordination of Co centers.

Original language	English
Pages (from-to)	15602-15606
Number of pages	5
Journal	Journal of Physical Chemistry C
Volume	114
Issue number	37
DOIs	https://doi.org/10.1021/jp104518h
State	Published - 23 Sep 2010

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title = "Surface-confined metal-organic nanostructures from co-directed assembly of linear terphenyl-dicarbonitrile linkers on Ag(111)",

abstract = "A detailed structural analysis of the surface supported self-assembly of terphenyl-4,4′-dicarbonitrile molecules (NC-Ph3-CN) linked by Co adatoms on Ag(111) reveals different surface patterns depending on the constraints applied to the system. Without constraints, i.e., sufficient mobility and absence of space limitations at the surface, extended regular honeycomb nanomeshes are formed. On the basis of high-resolution scanning tunneling microscopy images, an atomistic model is derived showing the crystallographic orientation of the molecules and a commensurate alignment of the honeycomb networks, which exist in two rotational domains on the Ag(111) atomic lattice. For Co deficiency, an additional star-like Co-directed motif has been identified, and fully disordered networks are present if space limitations are imposed. In these cases, nodal motifs exist showing between 3- and 6-fold coordination of Co centers.",

author = "U. Schlickum and F. Klappenberger and R. Decker and G. Zoppellaro and S. Klyatskaya and M. Ruben and K. Kern and H. Brune and Barth, {J. V.}",

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T1 - Surface-confined metal-organic nanostructures from co-directed assembly of linear terphenyl-dicarbonitrile linkers on Ag(111)

AU - Schlickum, U.

AU - Klappenberger, F.

AU - Decker, R.

AU - Zoppellaro, G.

AU - Klyatskaya, S.

AU - Ruben, M.

AU - Kern, K.

AU - Brune, H.

AU - Barth, J. V.

PY - 2010/9/23

Y1 - 2010/9/23

N2 - A detailed structural analysis of the surface supported self-assembly of terphenyl-4,4′-dicarbonitrile molecules (NC-Ph3-CN) linked by Co adatoms on Ag(111) reveals different surface patterns depending on the constraints applied to the system. Without constraints, i.e., sufficient mobility and absence of space limitations at the surface, extended regular honeycomb nanomeshes are formed. On the basis of high-resolution scanning tunneling microscopy images, an atomistic model is derived showing the crystallographic orientation of the molecules and a commensurate alignment of the honeycomb networks, which exist in two rotational domains on the Ag(111) atomic lattice. For Co deficiency, an additional star-like Co-directed motif has been identified, and fully disordered networks are present if space limitations are imposed. In these cases, nodal motifs exist showing between 3- and 6-fold coordination of Co centers.

AB - A detailed structural analysis of the surface supported self-assembly of terphenyl-4,4′-dicarbonitrile molecules (NC-Ph3-CN) linked by Co adatoms on Ag(111) reveals different surface patterns depending on the constraints applied to the system. Without constraints, i.e., sufficient mobility and absence of space limitations at the surface, extended regular honeycomb nanomeshes are formed. On the basis of high-resolution scanning tunneling microscopy images, an atomistic model is derived showing the crystallographic orientation of the molecules and a commensurate alignment of the honeycomb networks, which exist in two rotational domains on the Ag(111) atomic lattice. For Co deficiency, an additional star-like Co-directed motif has been identified, and fully disordered networks are present if space limitations are imposed. In these cases, nodal motifs exist showing between 3- and 6-fold coordination of Co centers.

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JO - Journal of Physical Chemistry C

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ER -

Surface-confined metal-organic nanostructures from co-directed assembly of linear terphenyl-dicarbonitrile linkers on Ag(111)

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