Aryl Radical Geometry Determines Nanographene Formation on Au(111)

Peter H. Jacobse; Adrianus van den Hoogenband; Marc Etienne Moret; Robertus J M Klein Gebbink; Ingmar Swart

doi:10.1002/anie.201606440

Aryl Radical Geometry Determines Nanographene Formation on Au(111)

Peter H. Jacobse, Adrianus van den Hoogenband, Marc Etienne Moret^*, Robertus J M Klein Gebbink, Ingmar Swart^*

^*Corresponding author for this work

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

Abstract

The Ullmann coupling has been used extensively as a synthetic tool for the formation of C−C bonds on surfaces. Thus far, most syntheses made use of aryl bromides or aryl iodides. We investigated the applicability of an aryl chloride in the bottom-up assembly of graphene nanoribbons. Specifically, the reactions of 10,10′-dichloro-9,9′-bianthryl (DCBA) on Au(111) were studied. Using atomic resolution non-contact AFM, the structure of various coupling products and intermediates were resolved, allowing us to reveal the important role of the geometry of the intermediate aryl radicals in the formation mechanism. For the aryl chloride, cyclodehydrogenation occurs before dehalogenation and polymerization. Due to their geometry, the planar bisanthene radicals display a different coupling behavior compared to the staggered bianthryl radicals formed when aryl bromides are used. This results in oligo- and polybisanthenes with predominantly fluoranthene-type connections.

Original language	English
Pages (from-to)	13052-13055
Number of pages	4
Journal	Angewandte Chemie - International Edition
Volume	55
Issue number	42
DOIs	https://doi.org/10.1002/anie.201606440
Publication status	Published - 10 Oct 2016

Keywords

atomic force microscopy
graphene nanoribbons
scanning tunnelling microscopy
surface synthesis
Ullmann coupling

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title = "Aryl Radical Geometry Determines Nanographene Formation on Au(111)",

abstract = "The Ullmann coupling has been used extensively as a synthetic tool for the formation of C−C bonds on surfaces. Thus far, most syntheses made use of aryl bromides or aryl iodides. We investigated the applicability of an aryl chloride in the bottom-up assembly of graphene nanoribbons. Specifically, the reactions of 10,10′-dichloro-9,9′-bianthryl (DCBA) on Au(111) were studied. Using atomic resolution non-contact AFM, the structure of various coupling products and intermediates were resolved, allowing us to reveal the important role of the geometry of the intermediate aryl radicals in the formation mechanism. For the aryl chloride, cyclodehydrogenation occurs before dehalogenation and polymerization. Due to their geometry, the planar bisanthene radicals display a different coupling behavior compared to the staggered bianthryl radicals formed when aryl bromides are used. This results in oligo- and polybisanthenes with predominantly fluoranthene-type connections.",

keywords = "atomic force microscopy, graphene nanoribbons, scanning tunnelling microscopy, surface synthesis, Ullmann coupling",

author = "Jacobse, {Peter H.} and {van den Hoogenband}, Adrianus and Moret, {Marc Etienne} and {Klein Gebbink}, {Robertus J M} and Ingmar Swart",

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T1 - Aryl Radical Geometry Determines Nanographene Formation on Au(111)

AU - Jacobse, Peter H.

AU - van den Hoogenband, Adrianus

AU - Moret, Marc Etienne

AU - Klein Gebbink, Robertus J M

AU - Swart, Ingmar

PY - 2016/10/10

Y1 - 2016/10/10

N2 - The Ullmann coupling has been used extensively as a synthetic tool for the formation of C−C bonds on surfaces. Thus far, most syntheses made use of aryl bromides or aryl iodides. We investigated the applicability of an aryl chloride in the bottom-up assembly of graphene nanoribbons. Specifically, the reactions of 10,10′-dichloro-9,9′-bianthryl (DCBA) on Au(111) were studied. Using atomic resolution non-contact AFM, the structure of various coupling products and intermediates were resolved, allowing us to reveal the important role of the geometry of the intermediate aryl radicals in the formation mechanism. For the aryl chloride, cyclodehydrogenation occurs before dehalogenation and polymerization. Due to their geometry, the planar bisanthene radicals display a different coupling behavior compared to the staggered bianthryl radicals formed when aryl bromides are used. This results in oligo- and polybisanthenes with predominantly fluoranthene-type connections.

AB - The Ullmann coupling has been used extensively as a synthetic tool for the formation of C−C bonds on surfaces. Thus far, most syntheses made use of aryl bromides or aryl iodides. We investigated the applicability of an aryl chloride in the bottom-up assembly of graphene nanoribbons. Specifically, the reactions of 10,10′-dichloro-9,9′-bianthryl (DCBA) on Au(111) were studied. Using atomic resolution non-contact AFM, the structure of various coupling products and intermediates were resolved, allowing us to reveal the important role of the geometry of the intermediate aryl radicals in the formation mechanism. For the aryl chloride, cyclodehydrogenation occurs before dehalogenation and polymerization. Due to their geometry, the planar bisanthene radicals display a different coupling behavior compared to the staggered bianthryl radicals formed when aryl bromides are used. This results in oligo- and polybisanthenes with predominantly fluoranthene-type connections.

KW - atomic force microscopy

KW - graphene nanoribbons

KW - scanning tunnelling microscopy

KW - surface synthesis

KW - Ullmann coupling

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JO - Angewandte Chemie - International Edition

JF - Angewandte Chemie - International Edition

IS - 42

ER -

Aryl Radical Geometry Determines Nanographene Formation on Au(111)

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Keywords

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