Experimental Band Structure of Pb(Zr,Ti)O3: Mechanism of Ferroelectric Stabilization

Dana Georgeta Popescu; Marius Adrian Husanu; Procopios Christou Constantinou; Lucian Dragos Filip; Lucian Trupina; Cristina Ioana Bucur; Iuliana Pasuk; Cristina Chirila; Luminita Mirela Hrib; Viorica Stancu; Lucian Pintilie; Thorsten Schmitt; Cristian Mihail Teodorescu; Vladimir N. Strocov

doi:10.1002/advs.202205476

Advanced Science (Feb 2023)

Experimental Band Structure of Pb(Zr,Ti)O3: Mechanism of Ferroelectric Stabilization

Dana Georgeta Popescu,
Marius Adrian Husanu,
Procopios Christou Constantinou,
Lucian Dragos Filip,
Lucian Trupina,
Cristina Ioana Bucur,
Iuliana Pasuk,
Cristina Chirila,
Luminita Mirela Hrib,
Viorica Stancu,
Lucian Pintilie,
Thorsten Schmitt,
Cristian Mihail Teodorescu,
Vladimir N. Strocov

Affiliations

Dana Georgeta Popescu: National Institute of Materials Physics Atomistilor 405A Magurele 077125 Romania
Marius Adrian Husanu: National Institute of Materials Physics Atomistilor 405A Magurele 077125 Romania
Procopios Christou Constantinou: Swiss Light Source Paul Scherrer Institute Villigen‐PSI 5232 Switzerland
Lucian Dragos Filip: National Institute of Materials Physics Atomistilor 405A Magurele 077125 Romania
Lucian Trupina: National Institute of Materials Physics Atomistilor 405A Magurele 077125 Romania
Cristina Ioana Bucur: National Institute of Materials Physics Atomistilor 405A Magurele 077125 Romania
Iuliana Pasuk: National Institute of Materials Physics Atomistilor 405A Magurele 077125 Romania
Cristina Chirila: National Institute of Materials Physics Atomistilor 405A Magurele 077125 Romania
Luminita Mirela Hrib: National Institute of Materials Physics Atomistilor 405A Magurele 077125 Romania
Viorica Stancu: National Institute of Materials Physics Atomistilor 405A Magurele 077125 Romania
Lucian Pintilie: National Institute of Materials Physics Atomistilor 405A Magurele 077125 Romania
Thorsten Schmitt: Swiss Light Source Paul Scherrer Institute Villigen‐PSI 5232 Switzerland
Cristian Mihail Teodorescu: National Institute of Materials Physics Atomistilor 405A Magurele 077125 Romania
Vladimir N. Strocov: Swiss Light Source Paul Scherrer Institute Villigen‐PSI 5232 Switzerland

DOI: https://doi.org/10.1002/advs.202205476
Journal volume & issue: Vol. 10, no. 6
pp. n/a – n/a

Abstract

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Abstract Pb(Zr,Ti)O3 (PZT) is the most common ferroelectric (FE) material widely used in solid‐state technology. Despite intense studies of PZT over decades, its intrinsic band structure, electron energy depending on 3D momentum k, is still unknown. Here, Pb(Zr0.2Ti0.8)O3 using soft‐X‐ray angle‐resolved photoelectron spectroscopy (ARPES) is explored. The enhanced photoelectron escape depth in this photon energy range allows sharp intrinsic definition of the out‐of‐plane momentum k and thereby of the full 3D band structure. Furthermore, the problem of sample charging due to the inherently insulating nature of PZT is solved by using thin‐film PZT samples, where a thickness‐induced self‐doping results in their heavy doping. For the first time, the soft‐X‐ray ARPES experiments deliver the intrinsic 3D band structure of PZT as well as the FE‐polarization dependent electrostatic potential profile across the PZT film deposited on SrTiO3 and LaxSrMn1−xO3 substrates. The negative charges near the surface, required to stabilize the FE state pointing away from the sample (P+), are identified as oxygen vacancies creating localized in‐gap states below the Fermi energy. For the opposite polarization state (P−), the positive charges near the surface are identified as cation vacancies resulting from non‐ideal stoichiometry of the PZT film as deduced from quantitative XPS measurements.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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