On-surface Synthesis of Aligned Functional Nanoribbons Monitored by Scanning Tunnelling Microscopy and Vibrational Spectroscopy

Overview

Journal Nat Commun

Specialty Biology

Date 2017 Apr 4

PMID 28368038

Citations 6

Authors

Nataliya Kalashnyk

Kawtar Mouhat

Jihun Oh

Jaehoon Jung

Yangchun Xie

Eric Salomon

Thierry Angot

Frederic Dumur

Didier Gigmes

Sylvain Clair

Affiliations

Soon will be listed here.

Abstract

In the blooming field of on-surface synthesis, molecular building blocks are designed to self-assemble and covalently couple directly on a well-defined surface, thus allowing the exploration of unusual reaction pathways and the production of specific compounds in mild conditions. Here we report on the creation of functionalized organic nanoribbons on the Ag(110) surface. C-H bond activation and homo-coupling of the precursors is achieved upon thermal activation. The anisotropic substrate acts as an efficient template fostering the alignment of the nanoribbons, up to the full monolayer regime. The length of the nanoribbons can be sequentially increased by controlling the annealing temperature, from dimers to a maximum length of about 10 nm, limited by epitaxial stress. The different structures are characterized by room-temperature scanning tunnelling microscopy. Distinct signatures of the covalent coupling are measured with high-resolution electron energy loss spectroscopy, as supported by density functional theory calculations.

Citing Articles

Competing pathways to aromaticity governed by amine dehydrogenation and metal-organic complexation in on-surface synthesis.

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Conformational evolution following the sequential molecular dehydrogenation of PMDI on a Cu(111) surface.

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On-Surface Formation of Cyano-Vinylene Linked Chains by Knoevenagel Condensation.

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Controlling a Chemical Coupling Reaction on a Surface: Tools and Strategies for On-Surface Synthesis.

Clair S, de Oteyza D Chem Rev. 2019; 119(7):4717-4776.

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