Multiple Local Symmetries Result in a Common Average Polar Axis in High-Strain BiFeO3 -Based Ceramics

Ge Wang; Tengfei Hu; Wenxuan Zhu; Zhilun Lu; Annette Kleppe; Maria Diaz Lopez; Antonio Feteira; Derek C. Sinclair; Zhengqian Fu; Houbing Huang; Dawei Wang; Ian M. Reaney

doi:10.1103/PhysRevLett.130.076801

Multiple Local Symmetries Result in a Common Average Polar Axis in High-Strain BiFeO3 -Based Ceramics

Ge Wang, Tengfei Hu, Wenxuan Zhu, Zhilun Lu, Annette Kleppe, Maria Diaz Lopez, Antonio Feteira, Derek C. Sinclair, Zhengqian Fu, Houbing Huang, Dawei Wang, Ian M. Reaney

Advanced Research Institute of Multidisciplinary Science

Research output: Contribution to journal › Article › peer-review

20 Citations (Scopus)

Abstract

For the first time, the origin of large electrostrain in pseudocubic BiFeO3-based ceramics is verified with direct structural evidence backed by appropriate simulations. We employ advanced structural and microstructural characterizations of BiFeO3-based ceramics that exhibit large electrostrain (>0.4%) to reveal the existence of multiple, nanoscale local symmetries, dominantly tetragonal or orthorhombic, which have a common, averaged direction of polarization over larger, meso- or microscale regions. Phase-field simulations confirm the existence of local nanoscale symmetries, thereby providing a new vision for designing high-performance lead-free ceramics for high-strain actuators.

Original language	English
Article number	076801
Journal	Physical Review Letters
Volume	130
Issue number	7
DOIs	https://doi.org/10.1103/PhysRevLett.130.076801
Publication status	Published - 17 Feb 2023

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10.1103/PhysRevLett.130.076801

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title = "Multiple Local Symmetries Result in a Common Average Polar Axis in High-Strain BiFeO3 -Based Ceramics",

abstract = "For the first time, the origin of large electrostrain in pseudocubic BiFeO3-based ceramics is verified with direct structural evidence backed by appropriate simulations. We employ advanced structural and microstructural characterizations of BiFeO3-based ceramics that exhibit large electrostrain (>0.4%) to reveal the existence of multiple, nanoscale local symmetries, dominantly tetragonal or orthorhombic, which have a common, averaged direction of polarization over larger, meso- or microscale regions. Phase-field simulations confirm the existence of local nanoscale symmetries, thereby providing a new vision for designing high-performance lead-free ceramics for high-strain actuators.",

author = "Ge Wang and Tengfei Hu and Wenxuan Zhu and Zhilun Lu and Annette Kleppe and {Diaz Lopez}, Maria and Antonio Feteira and Sinclair, {Derek C.} and Zhengqian Fu and Houbing Huang and Dawei Wang and Reaney, {Ian M.}",

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AU - Wang, Ge

AU - Hu, Tengfei

AU - Zhu, Wenxuan

AU - Lu, Zhilun

AU - Kleppe, Annette

AU - Diaz Lopez, Maria

AU - Feteira, Antonio

AU - Sinclair, Derek C.

AU - Fu, Zhengqian

AU - Huang, Houbing

AU - Wang, Dawei

AU - Reaney, Ian M.

PY - 2023/2/17

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N2 - For the first time, the origin of large electrostrain in pseudocubic BiFeO3-based ceramics is verified with direct structural evidence backed by appropriate simulations. We employ advanced structural and microstructural characterizations of BiFeO3-based ceramics that exhibit large electrostrain (>0.4%) to reveal the existence of multiple, nanoscale local symmetries, dominantly tetragonal or orthorhombic, which have a common, averaged direction of polarization over larger, meso- or microscale regions. Phase-field simulations confirm the existence of local nanoscale symmetries, thereby providing a new vision for designing high-performance lead-free ceramics for high-strain actuators.

AB - For the first time, the origin of large electrostrain in pseudocubic BiFeO3-based ceramics is verified with direct structural evidence backed by appropriate simulations. We employ advanced structural and microstructural characterizations of BiFeO3-based ceramics that exhibit large electrostrain (>0.4%) to reveal the existence of multiple, nanoscale local symmetries, dominantly tetragonal or orthorhombic, which have a common, averaged direction of polarization over larger, meso- or microscale regions. Phase-field simulations confirm the existence of local nanoscale symmetries, thereby providing a new vision for designing high-performance lead-free ceramics for high-strain actuators.

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Multiple Local Symmetries Result in a Common Average Polar Axis in High-Strain BiFeO3 -Based Ceramics

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