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| Naji, M. |
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| Mohamed, Tarek |
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| Bih, L. |
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| Kočí, Jan | Prague |
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| Azam, Siraj |
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| Azevedo, Nuno Monteiro |
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| Rignanese, Gian-Marco |
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Albisetti, Edoardo
Politecnico di Milano
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (8/8 displayed)
- 2024Patterning Magnonic Structures via Laser Induced Crystallization of Yittrium Iron Garnetcitations
- 2024Patterning Magnonic Structures via Laser Induced Crystallization of Yittrium Iron Garnetcitations
- 2023Spontaneous pattern of orthogonal ferroelectric domains in epitaxial KNN filmscitations
- 2022Inertial Spin Dynamics in Epitaxial Cobalt Filmscitations
- 2021Room-temperature ferroelectric switching of spin-to-charge conversion in GeTecitations
- 2021Room-temperature ferroelectric switching of spin-to-charge conversion in germanium telluridecitations
- 2018Stabilization and control of topological magnetic solitons via magnetic nanopatterning of exchange bias systemscitations
- 2016On-Chip Magnetic Platform for Single-Particle Manipulation with Integrated Electrical Feedbackcitations
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article
Spontaneous pattern of orthogonal ferroelectric domains in epitaxial KNN films
Abstract
<jats:p>Lead-free piezoelectric (K, Na)NbO3 (KNN) is considered one of the promising candidates for the replacement of Pb(ZrxTi1−x)O3. Several studies underlined the issue of K and Na volatility with increasing deposition temperatures, leading to high leakage currents in thin films, which still represents a major drawback for applications. This paper shows how epitaxial growth with concomitant preferred orientation of KNN films on niobium-doped strontium titanate (Nb:STO) depends on growth temperature and substrate strain. A preferred out-of-plane polar (001) orientation of KNN is obtained at high temperatures (&gt;600 °C), while (100) orientation is dominant for lower ones. The (001) orientation is forced out-of-plane due to the sizeable in-plane stress derived from a negative lattice mismatch of pseudo-cubic KNN with respect to the underlying cubic (001) Nb:STO substrate. Moreover, we show that K-Na deficiency and high leakage of epitaxial KNN films deposited at high temperatures are accompanied by the appearance of a pattern of orthogonal spontaneous ferroelectric domains aligned to the [100] and [010] directions of Nb:STO. This pattern, visible in secondary electron microscopy, piezoforce response microscopy, and conductive atomic force microscopy images, is uncorrelated to the surface morphology. Supported by reciprocal space mapping by x-ray diffraction, this phenomenon is interpreted as the result of strain relaxation via ferroelectric domain formation related to K-Na deficient films displaying a sizable and increasing compressive strain when grown on Nb:SrTiO3. Our findings suggest that strain engineering strategies in thin films could be used to stabilize specific configurations of piezo- and ferroelectric domains.</jats:p>