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Dresden 2014 – scientific programme

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O: Fachverband Oberflächenphysik

O 60: Graphene: Electronic Properties (O jointly with DS, HL, MA, TT)

O 60.1: Talk

Wednesday, April 2, 2014, 16:00–16:15, WIL C107

Monomer Doping of Self-Assembled Graphene Nanoribbons for Band Gap Alignment — •Christopher Bronner1,3, Stephan Stremlau1,3, Marie Gille2, Felix Brauße2, Anton Haase1, Stefan Hecht2, and Petra Tegeder1,31Freie Universität Berlin — 2Humboldt-Universität zu Berlin — 3Ruprecht-Karls-Universität Heidelberg

In order to exploit the technologically interesting electronic properties of graphene, several concepts have been discussed which would lead to the opening of a band gap. One approach is spatial confinement of the charge carriers in quasi-one-dimensional graphene nanoribbons (GNRs). The band gap of a GNR scales inversely with its width and particularly nanometer-scale widths are desirable for application e.g. in transistor devices. Since the electronic properties of GNRs depend critically on their structure, precise synthesis is necessary but challenging for conventional methods such as lithography. In contrast, self-assembly from molecular precursors is an intriguing approach which has been employed to fabricate defect-free GNRs with well-defined widths and edge structures. Only this high level of structural precision allows introduction of dopant atoms at specific doping sites and concentrations in the graphene lattice. Nitrogen doping has been known to shift the band structure of GNRs with respect to the Fermi level which is interesting for GNRs in contact with electrodes and other device materials. Using surface-sensitive electron spectroscopies we demonstrate a continuous down-shift of the band structure with increased nitrogen doping of the monomers.

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