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O: Fachverband Oberflächenphysik

O 93: Electronic structure of surfaces: Spectroscopy, surface states III

O 93.8: Vortrag

Freitag, 13. März 2026, 11:15–11:30, HSZ/0201

Defect-driven polarity compensation on weakly polar BaTiO₃ (001) and SrTiO₃ (001) surfaces. — •Darin Joseph¹, Llorenç Albons⁴, Florian Ellinger², Michele Reticcioli^2,3, Martin Setvin⁴, and Cesare Franchini^1,2 — ¹University of Bologna, Italy — ²University of Vienna, Austria — ³CNR-SPIN, L’ Aquila, Italy — ⁴Charles University, Prague , Czech Republic

BaTiO₃ (001) and SrTiO₃ (001), commonly classified as Tasker Type I and nonpolar, exhibit surface instability, as evidenced by A-site (Ba/Sr) adatoms and vacancies on cleaved surfaces observed in experiments. Density Functional Theory (DFT) calculations revealed the work function variation between the TiO₂ and AO terminations and an electric field in the vacuum of asymmetric slabs, which are typically associated with polar surfaces. Our study reveals that both perovskites exhibit weak polar stacking along the crystallographic axis, leading to surface charges on the pristine terminations and creating an unfavorable electrostatic environment. Our analysis shows that the experimentally observed A-site defects act as compensation mechanisms by counterbalancing these charges to restore charge equilibrium. Charge compensation occurs at  12.5% Sr adatom and 12% vacancy coverage for SrTiO₃ and at approximately 12-13% defect concentration for BaTiO₃. These theoretical values are consistent with the experimental defect concentrations.

Keywords: Weak Polarity; DFT; Defects; Perovskite surfaces; Polarity compensation