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Synthesis of graphene nanoribbons with a defined mixed edge-site sequence by surface assisted polymerization of (1,6)-dibromopyrene on Ag(110)

Authors :
Smerieri, M
Píš, I
Ferrighi, L
Nappini, S
Lusuan, A
DI VALENTIN, C
Vaghi, L
Papagni, A
Cattelan, M
Agnoli, S
Magnano, E
Bondino, F
Savio, L
FERRIGHI, LARA
DI VALENTIN, CRISTIANA
VAGHI, LUCA
PAPAGNI, ANTONIO
Savio, L.
Smerieri, M
Píš, I
Ferrighi, L
Nappini, S
Lusuan, A
DI VALENTIN, C
Vaghi, L
Papagni, A
Cattelan, M
Agnoli, S
Magnano, E
Bondino, F
Savio, L
FERRIGHI, LARA
DI VALENTIN, CRISTIANA
VAGHI, LUCA
PAPAGNI, ANTONIO
Savio, L.
Publication Year :
2016

Abstract

By a combination of scanning tunneling microscopy, X-ray spectroscopic techniques and density functional theory calculations, we prove the formation of extended patterns of parallel, graphene nanoribbons with alternate zig-zag and armchair edges and selected width by surface-assisted Ullmann coupling polymerization and dehydrogenation of 1,6-dibromopyrene (C16H8Br2). Besides the relevance of these nanostructures for their possible application in nanodevices, we demonstrate the peculiarity of halogenated pyrene derivatives for the formation of nanoribbons, in particular on Ag(110). These results open the possibility of tuning the shape and dimension of nanoribbons (and hence the correlated electronic properties) by choosing suitably tailored or on-purpose designed molecular precursors.

Details

Database :
OAIster
Notes :
English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1308920499
Document Type :
Electronic Resource