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Synthesis of Hexabenzocoronene‐Cored Graphdiyne Nanosheets through Dehydrogenative Coupling on Au(111) Surface

Lina Wang, Yi Han, Miao Xie, Xuechao Li, Qiang Chen, Yanning Tang, Ye Liu, Haitao Ge, Hailong Li, Liangshuhan Cai, Klaus Meerholz, Haiming Zhang, Haiming Zhang, Kläus Müllen, Kläus Müllen, Lifeng Chi

2024Angewandte Chemie International Edition12 citationsDOI

Abstract

Abstract Thermally‐induced dehydrogenative coupling of polyphenylenes on metal surfaces is an important technique to synthesize ‐conjugated carbon nanostructures with atomic precision. However, this protocol has rarely been utilized to fabricate structurally defined carbon nanosheets composed of sp‐ and sp 2 ‐hybridized carbon atoms. Here, we present the synthesis of butadiyne‐linked hexabenzocoronenes (HBCs) on Au(111) surfaces as core‐expanded graphdiynes. The reaction started from hexa(4‐ethylphenyl)benzene, which undergoes dehydrogenation toward hexa(4‐vinylphenyl)benzene, followed by planarization to hexabenzocoronene, coupling between the vinyl groups, and further dehydrogenation. In addition to butadiyne linkages, benzene groups were also found as another type of linker. The reaction sequences were monitored by scanning tunneling microscopy and bond‐resolved non‐contact atomic force microscopy, which disclose the structures of intermediates and final products. In combination with density functional theory simulations, the key steps from ethyl substituents to butadiyne and benzene linkers were elucidated. This is a new on‐surface synthesis of core‐expanded graphdiynes with unprecedented electronic properties.

Topics & Concepts

Coupling (piping)Materials scienceSurface (topology)NanotechnologyComposite materialGeometryMathematicsGraphene research and applicationsSurface Chemistry and CatalysisNanocluster Synthesis and Applications
Synthesis of Hexabenzocoronene‐Cored Graphdiyne Nanosheets through Dehydrogenative Coupling on Au(111) Surface | Litcius