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Uncovering the symmetry of the induced ferroelectric phase transformation in polycrystalline barium titanate

Silva, Lucas Lemos da ; Lee, Kai-Yang ; Petrick, Simon ; Etter, Martin ; Schöckel, Alexander ; Chaves, Giovanni Chaves ; Silva, Nilson Olivera da ; Kodumudi Venkataraman, Lalitha ; Picht, Gunnar ; Hoffmann, Michael J. ; Hinterstein, Manuel (2021)
Uncovering the symmetry of the induced ferroelectric phase transformation in polycrystalline barium titanate.
In: Journal of Applied Physics, 130
doi: 10.1063/5.0068703
Article, Bibliographie

Abstract

Microstructural design is a widespread approach to tailor the properties of functional materials with the size effect being an effective constraint that modifies physical phenomena. In this work, we investigate the grain size effect on the properties and the electric field induced phase transformation behavior in barium titanate. A broad range of unimodal average grain size distribution between 0.4 and 15 μm was successfully sintered avoiding abnormal grain growth. Samples with a grain size close to the range of 1–2 μm, balancing microstructural strain, presence, and mobility of domain walls to allow the field induced crystal phase transformation, showed optimal electromechanical and dielectric properties. By means of in situ high energy x-ray diffraction and a high-resolution multianalyzer detector, we distinguish and quantify a tetragonal–orthorhombic phase transformation induced by an electric field, providing unambiguous proof of this induced phase transformation. These results contribute to the understanding of fundamental questions about the piezoelectric effect in barium titanate and consequently other similar systems.

Item Type: Article
Erschienen: 2021
Creators: Silva, Lucas Lemos da ; Lee, Kai-Yang ; Petrick, Simon ; Etter, Martin ; Schöckel, Alexander ; Chaves, Giovanni Chaves ; Silva, Nilson Olivera da ; Kodumudi Venkataraman, Lalitha ; Picht, Gunnar ; Hoffmann, Michael J. ; Hinterstein, Manuel
Type of entry: Bibliographie
Title: Uncovering the symmetry of the induced ferroelectric phase transformation in polycrystalline barium titanate
Language: English
Date: 21 December 2021
Publisher: AIP Publishing
Journal or Publication Title: Journal of Applied Physics
Volume of the journal: 130
DOI: 10.1063/5.0068703
Abstract:

Microstructural design is a widespread approach to tailor the properties of functional materials with the size effect being an effective constraint that modifies physical phenomena. In this work, we investigate the grain size effect on the properties and the electric field induced phase transformation behavior in barium titanate. A broad range of unimodal average grain size distribution between 0.4 and 15 μm was successfully sintered avoiding abnormal grain growth. Samples with a grain size close to the range of 1–2 μm, balancing microstructural strain, presence, and mobility of domain walls to allow the field induced crystal phase transformation, showed optimal electromechanical and dielectric properties. By means of in situ high energy x-ray diffraction and a high-resolution multianalyzer detector, we distinguish and quantify a tetragonal–orthorhombic phase transformation induced by an electric field, providing unambiguous proof of this induced phase transformation. These results contribute to the understanding of fundamental questions about the piezoelectric effect in barium titanate and consequently other similar systems.

Additional Information:

Artikel-ID: 234101

Divisions: 11 Department of Materials and Earth Sciences
11 Department of Materials and Earth Sciences > Material Science
11 Department of Materials and Earth Sciences > Material Science > Nonmetallic-Inorganic Materials
Date Deposited: 18 Jan 2022 06:38
Last Modified: 18 Jan 2022 06:38
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