On-surface synthesis of aligned functional nanoribbons monitored by scanning tunnelling microscopy and vibrational spectroscopy

On-surface synthesis of aligned functional nanoribbons monitored by scanning tunnelling microscopy and vibrational spectroscopy

On-surface synthesis, in which molecular units assemble and couple on a defined surface, can access rare reaction pathways and products. Here, the authors synthesize functionalized organic nanoribbons on the Ag(110) surface, and monitor the evolution of the covalent reactions by an unorthodox vibrat...

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Main Authors: Nataliya Kalashnyk, Kawtar Mouhat, Jihun Oh, Jaehoon Jung, Yangchun Xie, Eric Salomon, Thierry Angot, Frédéric Dumur, Didier Gigmes, Sylvain Clair
Format: Article
Language:English
Published: Nature Publishing Group 2017-04-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/ncomms14735
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spelling doaj-920ac7ccff1e47fba719794c5734c6402021-05-11T07:04:56ZengNature Publishing GroupNature Communications2041-17232017-04-01811910.1038/ncomms14735On-surface synthesis of aligned functional nanoribbons monitored by scanning tunnelling microscopy and vibrational spectroscopyNataliya Kalashnyk0Kawtar Mouhat1Jihun Oh2Jaehoon Jung3Yangchun Xie4Eric Salomon5Thierry Angot6Frédéric Dumur7Didier Gigmes8Sylvain Clair9Aix Marseille Univ, University Toulon, CNRS, IM2NPAix Marseille Univ, University Toulon, CNRS, IM2NPDepartment of Chemistry, University of UlsanDepartment of Chemistry, University of UlsanAix Marseille Univ, University Toulon, CNRS, IM2NPAix Marseille Univ, CNRS, PIIMAix Marseille Univ, CNRS, PIIMAix Marseille Univ, CNRS, ICRAix Marseille Univ, CNRS, ICRAix Marseille Univ, University Toulon, CNRS, IM2NPOn-surface synthesis, in which molecular units assemble and couple on a defined surface, can access rare reaction pathways and products. Here, the authors synthesize functionalized organic nanoribbons on the Ag(110) surface, and monitor the evolution of the covalent reactions by an unorthodox vibrational spectroscopy approach.https://doi.org/10.1038/ncomms14735
collection DOAJ
language English
format Article
sources DOAJ
author Nataliya Kalashnyk
Kawtar Mouhat
Jihun Oh
Jaehoon Jung
Yangchun Xie
Eric Salomon
Thierry Angot
Frédéric Dumur
Didier Gigmes
Sylvain Clair
spellingShingle Nataliya Kalashnyk
Kawtar Mouhat
Jihun Oh
Jaehoon Jung
Yangchun Xie
Eric Salomon
Thierry Angot
Frédéric Dumur
Didier Gigmes
Sylvain Clair
On-surface synthesis of aligned functional nanoribbons monitored by scanning tunnelling microscopy and vibrational spectroscopy
Nature Communications
author_facet Nataliya Kalashnyk
Kawtar Mouhat
Jihun Oh
Jaehoon Jung
Yangchun Xie
Eric Salomon
Thierry Angot
Frédéric Dumur
Didier Gigmes
Sylvain Clair
author_sort Nataliya Kalashnyk
title On-surface synthesis of aligned functional nanoribbons monitored by scanning tunnelling microscopy and vibrational spectroscopy
title_short On-surface synthesis of aligned functional nanoribbons monitored by scanning tunnelling microscopy and vibrational spectroscopy
title_full On-surface synthesis of aligned functional nanoribbons monitored by scanning tunnelling microscopy and vibrational spectroscopy
title_fullStr On-surface synthesis of aligned functional nanoribbons monitored by scanning tunnelling microscopy and vibrational spectroscopy
title_full_unstemmed On-surface synthesis of aligned functional nanoribbons monitored by scanning tunnelling microscopy and vibrational spectroscopy
title_sort on-surface synthesis of aligned functional nanoribbons monitored by scanning tunnelling microscopy and vibrational spectroscopy
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2017-04-01
description On-surface synthesis, in which molecular units assemble and couple on a defined surface, can access rare reaction pathways and products. Here, the authors synthesize functionalized organic nanoribbons on the Ag(110) surface, and monitor the evolution of the covalent reactions by an unorthodox vibrational spectroscopy approach.
url https://doi.org/10.1038/ncomms14735
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