On-Surface Ullmann Coupling: The Influence of Kinetic Reaction Parameters on the Morphology and Quality of Covalent Networks

Eichhorn, Johanna; Nieckarz, Damian; Ochs, Oliver; Samanta, Debabrata; Schmittel, Michael; Szabelski, Paweł; Lackinger, Markus

doi:10.1021/nn501567p

Cited by 203 publications

(234 citation statements)

References 36 publications

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“…In this method, the halogenated precursor molecules are deposited onto metal surfaces and depending on the type of metal surface, coupling proceeds either directly [25] or via a metastable organic intermediate [26].…”

Section: New or Advanced Catalytic Systemsmentioning

confidence: 99%

Recent advancement of Ullmann-type coupling reactions in the formation of C–C bond

Mondal¹

2016

ChemTexts

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The present text discussed about the recent developments and applications of the Ullmann reaction in respect of the C-C bond formation. The major drawback of the Ullmann reaction, i.e., harsh reaction condition has recently been overcome with the development of various synthetic methodologies. Green synthetic methodologies such as metal-, ligand-, and additive free conditions, recyclable heterogenous catalysts, microwave-and ultrasoundassisted synthesis, etc. have got special importance in this field. This text lucidly describes all these recently developed synthetic methodologies which make the century old Ullmann reaction much efficient, effective, economical and attractive in the field of synthetic organic chemistry. Onsurface Ullmann coupling for the C-C bond formation, i.e., invoking C-C coupling reactions on a reactive surface has been discussed. All such developments of the Ullmann C-C coupling facilitate its application in the synthesis of bioactive heterocycles, drug-like molecules and natural products which has also been discussed in this text.

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Section: New or Advanced Catalytic Systemsmentioning

confidence: 99%

Recent advancement of Ullmann-type coupling reactions in the formation of C–C bond

Mondal¹

2016

ChemTexts

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“…15 Self-assembly of molecules on a metal surface enables to form the 2D structures by interactions with the substrate as well as those with the neighboring molecules. 68 Molecular 2D structures like covalent organic frameworks (COFs) are of great interest because the covalent bonding structures are preferable for various applications due to their thermal and chemical stability.…”

mentioning

confidence: 99%

“…68 Molecular 2D structures like covalent organic frameworks (COFs) are of great interest because the covalent bonding structures are preferable for various applications due to their thermal and chemical stability. 913 Various chemical reactions to form covalent bonds have been reported, such as Ullman coupling, 14,15 Glaser coupling, 16 decarboxylative coupling, 17 acylation reaction, 18 imidization reaction, 19 and condensation reaction. 20 Most of these materials reported have been based on sp 3 -hybridized carbons, which lack π-conjugation in 2D system.…”

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confidence: 99%

Interchain-linked Graphene Nanoribbons from Dibenzo[g,p]chrysene via Two-zone Chemical Vapor Deposition

Song¹,

Huang²,

Kojima³

et al. 2017

Chem. Lett.

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We report covalently interchain-linked graphene nanoribbons fabricated on Au(111) by a stepwise growth process via two-zone chemical vapor deposition. Prepolymer arrays were grown by surface-assisted polymerization of a precursor, 1,9-dibromodibenzo [g,p]chrysene at 250°C. Further annealing at 450°C converted the prepolymers into interchain-linked graphene nanoribbons via intramolecular and intermolecular dehydrogenation reactions.

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“…5 With the combination of sp-, sp 2 -, and sp 3 -hybridized carbon atoms, a number of 2D carbon materials with different architectures have also been synthesized and/or theoretically predicted. 2,[6][7][8][9][10][11][12][13][14][15][16][17][18] In particular, graphene has attracted major attention during the last decade, which also stimulated the studies of other 2D carbon materials such as γ-graphyne and graphdiyne ( Figure 1). 10,11,14,19,20 Atomically precise syntheses of γ-graphyne and graphdiyne remain elusive, but widely studied phenylene-ethynylene-based macrocycles can be regarded as their molecular subunits.…”

mentioning

confidence: 99%

“…Nevertheless, the number of reported examples of 2D carbon materials is still limited. 2,[6][7][8][9][10][11][12][13][14][15][16][17][18] By replacing ethynylene groups of γ-graphyne and graphdiyne with p-phenylene units, two purely sp 2 -hybridized 2D carbon structures with hexagonal symmetry can be conceived, which we name graphenylene-1 and graphenylene-2, respectively ( Figure 1). Notably, graphenylene-1 corresponds to a single-layer substructure of the hypothetical carbon allotrope "cubic graphite", 26 the synthesis of which still remains elusive.…”

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confidence: 99%

A Shape-Persistent Polyphenylene Spoked Wheel

et al. 2016

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A shape-persistent polyphenylene with a “spoked wheel” structure was synthesized as a subunit of an unprecedented two-dimensional polyphenylene that we name graphenylene. The synthesis was carried out through a sixfold intramolecular Yamamoto coupling of a dodecabromo-substituted dendritic polyphenylene precursor, which had a central hexaphenylbenzene unit as a template. Characterizations by NMR spectroscopy and matrix-assisted laser ionization time-of-flight mass spectrometry provided an unambiguous structural proof for the wheel-like molecule with a molar mass of 3815.4 g/mol. Remarkably, scanning tunneling microscopy visualization clearly revealed the defined spoked wheel structure of the molecule with six internal pores.

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On-Surface Ullmann Coupling: The Influence of Kinetic Reaction Parameters on the Morphology and Quality of Covalent Networks

Cited by 203 publications

References 36 publications

Recent advancement of Ullmann-type coupling reactions in the formation of C–C bond

Recent advancement of Ullmann-type coupling reactions in the formation of C–C bond

Interchain-linked Graphene Nanoribbons from Dibenzo[g,p]chrysene via Two-zone Chemical Vapor Deposition

A Shape-Persistent Polyphenylene Spoked Wheel

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