Toward Functionalized Ultrathin Oxide Films: The Impact of Surface Apical Oxygen

Judith Gabel; Matthias Pickem; Philipp Scheiderer; Lenart Dudy; Berengar Leikert; Marius Fuchs; Martin Stübinger; Matthias Schmitt; Julia Küspert; Giorgio Sangiovanni; Jan M. Tomczak; Karsten Held; Tien‐Lin Lee; Ralph Claessen; Michael Sing

doi:10.1002/aelm.202101006

Advanced Electronic Materials (Apr 2022)

Toward Functionalized Ultrathin Oxide Films: The Impact of Surface Apical Oxygen

Judith Gabel,
Matthias Pickem,
Philipp Scheiderer,
Lenart Dudy,
Berengar Leikert,
Marius Fuchs,
Martin Stübinger,
Matthias Schmitt,
Julia Küspert,
Giorgio Sangiovanni,
Jan M. Tomczak,
Karsten Held,
Tien‐Lin Lee,
Ralph Claessen,
Michael Sing

Affiliations

Judith Gabel: Diamond Light Source Didcot OX11 0DE UK
Matthias Pickem: Institute of Solid State Physics TU Wien Vienna 1040 Austria
Philipp Scheiderer: Physikalisches Institut and Würzburg‐Dresden Cluster of Excellence ct.qmat Universität Würzburg 97074 Würzburg Germany
Lenart Dudy: Synchrotron SOLEIL Saint‐Aubin 91190 France
Berengar Leikert: Physikalisches Institut and Würzburg‐Dresden Cluster of Excellence ct.qmat Universität Würzburg 97074 Würzburg Germany
Marius Fuchs: Institut für Theoretische Physik and Würzburg‐Dresden Cluster of Excellence ct.qmat Universität Würzburg 97074 Würzburg Germany
Martin Stübinger: Physikalisches Institut and Würzburg‐Dresden Cluster of Excellence ct.qmat Universität Würzburg 97074 Würzburg Germany
Matthias Schmitt: Physikalisches Institut and Würzburg‐Dresden Cluster of Excellence ct.qmat Universität Würzburg 97074 Würzburg Germany
Julia Küspert: Physikalisches Institut and Würzburg‐Dresden Cluster of Excellence ct.qmat Universität Würzburg 97074 Würzburg Germany
Giorgio Sangiovanni: Institut für Theoretische Physik and Würzburg‐Dresden Cluster of Excellence ct.qmat Universität Würzburg 97074 Würzburg Germany
Jan M. Tomczak: Institute of Solid State Physics TU Wien Vienna 1040 Austria
Karsten Held: Institute of Solid State Physics TU Wien Vienna 1040 Austria
Tien‐Lin Lee: Diamond Light Source Didcot OX11 0DE UK
Ralph Claessen: Physikalisches Institut and Würzburg‐Dresden Cluster of Excellence ct.qmat Universität Würzburg 97074 Würzburg Germany
Michael Sing: Physikalisches Institut and Würzburg‐Dresden Cluster of Excellence ct.qmat Universität Würzburg 97074 Würzburg Germany

DOI: https://doi.org/10.1002/aelm.202101006
Journal volume & issue: Vol. 8, no. 4
pp. n/a – n/a

Abstract

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Abstract Thin films of transition metal oxides open up a gateway to nanoscale electronic devices beyond silicon characterized by novel electronic functionalities. While such films are commonly prepared in an oxygen atmosphere, they are typically considered to be ideally terminated with the stoichiometric composition. Using the prototypical correlated metal SrVO3 as an example, it is demonstrated that this idealized description overlooks an essential ingredient: oxygen adsorbing at the surface apical sites. The oxygen adatoms, which are present even if the films are kept in an ultrahigh vacuum environment and not explicitly exposed to air, are shown to severely affect the intrinsic electronic structure of a transition metal oxide film. Their presence leads to the formation of an electronically dead surface layer but also alters the band filling and the electron correlations in the thin films. These findings highlight that it is important to take into account surface apical oxygen or—mutatis mutandis—the specific oxygen configuration imposed by a capping layer to predict the behavior of ultrathin films of transition metal oxides near the single unit‐cell limit.

Published in Advanced Electronic Materials

ISSN: 2199-160X (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Electric apparatus and materials. Electric circuits. Electric networks; Science: Physics
Website: https://onlinelibrary.wiley.com/journal/2199160x

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