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O: Fachverband Oberflächenphysik

O 87: Poster Session - Nanostructures at Surfaces: 1D and 2D Structures and Networks

O 87.7: Poster

Mittwoch, 18. März 2020, 18:15–20:00, P2/1OG

Electronic and magnetic structure of oriented sandwich-molecular wires on graphene/Ir(110) — •Stefan Kraus¹, Alexander Herman², Felix Huttmann¹, Ken Bischof¹, Nico Rothenbach², Katharina Ollefs², Marco Bianchi⁴, Raluca-Maria Stan⁴, Ann Julie Holt⁴, Jan Dreiser⁵, Shigeru Tsukamoto³, Nicolae Atodiresei³, Philip Hofmann⁴, Heiko Wende², and Thomas Michely¹ — ¹Universität zu Köln, Germany — ²Universität Duisburg-Essen, Germany — ³Forschungszentrum Jülich, Germany — ⁴Aarhus university, Denmark — ⁵Paul Scherrer Institut, Switzerland

Sandwich-molecular wires are one-dimensional arrangements of alternating metal atoms and cyclic molecules which, when synthesized on a surface, can interlock with each other and form islands. Here, we use europium as metal reactant and cyclooctatetraene as ligand. We choose the substrate Gr/Ir(110) which has a two-fold symmetric moiré, in order to achieve a global wire orientation. Excluding defects we observe wire formation only along the [001] direction, which allows for band structure investigations using ARPES. Although it is not possible to observe the π-derived bands, we find a flat band stemming from the 4f-states. The comparison with DFT calculations allows us to estimate the Hubbard U for the wires. While XMCD for these wires on Gr/Ir(111) shows a hyteresis at 5K, this hysteresis is suppressed in the oriented wires on Gr/Ir(110). We speculate that the more reactive binding of Gr/Ir(110) leads to this suppression, while the electronic configuration of Eu 4f⁷ is left unchanged.