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O: Fachverband Oberflächenphysik

O 10: Oxides I: Growth and Characterization

O 10.2: Vortrag

Montag, 16. März 2020, 10:45–11:00, WIL B321

Epitaxial growth of wurtzite CoO(0001) on Au(111) and conversion into rocksalt CoO(001) — •Maximilian Ammon¹, Lutz Hammer¹, Sara Baumann¹, Andreas Raabgrund¹, Tilman Kisslinger¹, Josef Redinger², and M. Alexander Schneider¹ — ¹Lehrstuhl für Festkörperphysik, Universität Erlangen-Nürnberg — ²Institut für Angewandte Physik & CMS, TU Wien

Wurtzite (w-)CoO is a semiconducting [1] and antiferromagnetic [2] material. We establish the preparation parameters for the epitaxial growth of closed w-CoO films on Au(111) of several nanometer thickness. A LEED-IV analysis (R_p = 0.112) proves the structure to be w-CoO (a = 3.26 Å, c=5.22 Å) with small relaxations in the 1. surface layer only. DFT calculations based on hybrid functionals or LDAU schemes reproduce all measured geometrical parameters very well.

We used STS and DFT to study the electronic properties of these w-CoO films. Films with a thickness of 15 bilayers (BL) ≈ 4 nm exhibit a bandgap of 1.8± 0.2 eV around E_F as measured by STS that is comparable to the optical bandgap quoted in literature [1]. We observe a reduction of the bandgap with decreased film thickness.

Annealing of w-CoO(0001) films to 600 ^∘C induces a phase transition to closed rocksalt (rs-)CoO(001) films. Experiments with ultra-thin films (≤ 4 BL) show that this conversion results in films of homogeneous thickness corresponding to three cubic lattice constants of rs-CoO (≈ 1.2 nm).

[1] Wang et al., Chem. Commun. 54, 13949 (2018)

[2] Roca et al., Small 14, 1703963 (2018)