Ferroelectric Orthorhombic ZrO2 Thin Films Achieved Through Nanosecond Laser Annealing-Reference-Cited by-同舟云学术

Ferroelectric Orthorhombic ZrO₂ Thin Films Achieved Through Nanosecond Laser Annealing

Published:2023-03-22 Issue:15 Volume:10 Page:
ISSN:2198-3844
Container-title:Advanced Science
language:en
Short-container-title:Advanced Science

Author:

Crema Anna P. S.¹²,Istrate Marian C.³⁴,Silva Alexandre¹²,Lenzi Veniero¹²,Domingues Leonardo¹²,Hill Megan O.⁵,Teodorescu Valentin S.³⁴,Ghica Corneliu⁴,Gomes Maria J. M.¹²,Pereira Mario¹²,Marques Luís¹²,MacManus‐Driscoll Judith L.⁵^ORCID,Silva José P. B.¹²^ORCID

Affiliation:

1. Physics Center of Minho and Porto Universities (CF‐UM‐UP) University of Minho Campus de Gualtar Braga 4710‐057 Portugal

2. Laboratory of Physics for Materials and Emergent Technologies LapMET University of Minho Braga 4710‐057 Portugal

3. University of Bucharest Faculty of Physics Atomistilor 405, Magurele Ilfov 077125 Romania

4. National Institute of Materials Physics Lab. of Atomic Structures and Defects in Advanced Materials 405A Atomistilor Str. Magurele Ilfov 077125 Romania

5. Dept. of Materials Science and Metallurgy University of Cambridge 27 Charles Babbage Rd Cambridge CB3 OFS United Kingdom

Abstract

AbstractA new approach for the stabilization of the ferroelectric orthorhombic ZrO2 films is demonstrated through nanosecond laser annealing (NLA) of as‐deposited Si/SiOx/W(14 nm)/ZrO2(8 nm)/W(22 nm), grown by ion beam sputtering at low temperatures. The NLA process optimization is guided by COMSOL multiphysics simulations. The films annealed under the optimized conditions reveal the presence of the orthorhombic phase, as confirmed by X‐ray diffraction, electron backscatter diffraction, and transmission electron microscopy. Macroscopic polarization‐electric field hysteresis loops show ferroelectric behavior, with saturation polarization of 12.8 µC cm−2, remnant polarization of 12.7 µC cm−2 and coercive field of 1.2 MV cm−1. The films exhibit a wake‐up effect that is attributed to the migration of point defects, such as oxygen vacancies, and/or a transition from nonferroelectric (monoclinic and tetragonal phase) to the ferroelectric orthorhombic phase. The capacitors demonstrate a stable polarization with an endurance of 6.0 × 105 cycles, demonstrating the potential of the NLA process for the fabrication of ferroelectric memory devices with high polarization, low coercive field, and high cycling stability.

Funder

Foundation for Science and Technology

Royal Academy of Engineering

Publisher

Wiley

Subject

General Physics and Astronomy,General Engineering,Biochemistry, Genetics and Molecular Biology (miscellaneous),General Materials Science,General Chemical Engineering,Medicine (miscellaneous)

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/advs.202207390

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