On-Surface Bottom-Up Synthesis of Azine Derivatives Displaying Strong Acceptor Behavior

Overview

Journal Angew Chem Int Ed Engl

Specialty Chemistry

Date 2018 Jun 23

PMID 29931817

Citations 9

Authors

Nerea Ruiz Del Arbol

Irene Palacio

Gonzalo Otero-Irurueta

Jose I Martinez

Pedro L de Andres

Oleksander Stetsovych

Maria Moro-Lagares

Pingo Mutombo

Martin Svec

Pavel Jelinek

Albano Cossaro

Luca Floreano

Gary J Ellis

Maria F Lopez

Jose A Martin-Gago

Affiliations

Soon will be listed here.

Abstract

On-surface synthesis is an emerging approach to obtain, in a single step, precisely defined chemical species that cannot be obtained by other synthetic routes. The control of the electronic structure of organic/metal interfaces is crucial for defining the performance of many optoelectronic devices. A facile on-surface chemistry route has now been used to synthesize the strong electron-acceptor organic molecule quinoneazine directly on a Cu(110) surface, via thermally activated covalent coupling of para-aminophenol precursors. The mechanism is described using a combination of in situ surface characterization techniques and theoretical methods. Owing to a strong surface-molecule interaction, the quinoneazine molecule accommodates 1.2 electrons at its carbonyl ends, inducing an intramolecular charge redistribution and leading to partial conjugation of the rings, conferring azo-character at the nitrogen sites.

Citing Articles

On-Surface Thermal Stability of a Graphenic Structure Incorporating a Tropone Moiety.

Marquez I, Ruiz Del Arbol N, Urgel J, Villalobos F, Fasel R, Lopez M Nanomaterials (Basel). 2022; 12(3).

PMID: 35159831 PMC: 8837919. DOI: 10.3390/nano12030488.

Copper-assisted oxidation of catechols into quinone derivatives.

Gomez-Herrero A, Sanchez-Sanchez C, Cherioux F, Martinez J, Abad J, Floreano L Chem Sci. 2021; 12(6):2257-2267.

PMID: 34163992 PMC: 8179264. DOI: 10.1039/d0sc04883f.

Azo bond formation on metal surfaces.

Meng X, Klaasen H, Viergutz L, Schulze Lammers B, Witteler M, Monig H Angew Chem Int Ed Engl. 2020; 60(3):1458-1464.

PMID: 33197115 PMC: 7839811. DOI: 10.1002/anie.202011858.

Role of the metal surface on the room temperature activation of the alcohol and amino groups of p-aminophenol.

Ruiz Del Arbol N, Palacio I, Sanchez-Sanchez C, Otero-Irurueta G, Martinez J, Rodriguez L J Phys Chem C Nanomater Interfaces. 2020; 124(36):19655-19665.

PMID: 33163138 PMC: 7116303. DOI: 10.1021/acs.jpcc.0c06101.

On-Surface Driven Formal Michael Addition Produces m-Polyaniline Oligomers on Pt(111).

Ruiz Del Arbol N, Sanchez-Sanchez C, Otero-Irurueta G, Martinez J, de Andres P, Gomez-Herrero A Angew Chem Int Ed Engl. 2020; 59(51):23220-23227.

PMID: 32761699 PMC: 7116460. DOI: 10.1002/anie.202009863.

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