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Main Authors: Pengwen Guo, Mengmeng Jia, Di Guo, Tianling Ren, Zhong Lin Wang, Junyi Zhai
Format: Artículo Open Access
Published: Wiley 2025
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Online Access:https://onlinelibrary.wiley.com/doi/10.1002/sys3.1
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author Pengwen Guo
Mengmeng Jia
Di Guo
Tianling Ren
Zhong Lin Wang
Junyi Zhai
author_facet Pengwen Guo
Mengmeng Jia
Di Guo
Tianling Ren
Zhong Lin Wang
Junyi Zhai
Pengwen Guo
Mengmeng Jia
Di Guo
Tianling Ren
Zhong Lin Wang
Junyi Zhai
collection Wiley Open Access
contents Progress in Flexoelectric Effect Research and Related Applications Pengwen Guo Mengmeng Jia Di Guo Tianling Ren Zhong Lin Wang Junyi Zhai SmartSys ABSTRACTThe flexoelectric effect refers to the electromechanical coupling between electric polarization and mechanical strain gradient. It universally exists in a variety of materials in any space group, such as liquid crystals, dielectrics, biological materials, and semiconductors. Because of its unique size effect, nanoscale flexoelectricity has shown novel phenomena and promising applications in electronics, optronics, mechatronics, and photovoltaics. In this review, we provide a succinct report on the discovery and development of the flexoelectric effect, focusing on flexoelectric materials and related applications. Finally, we discuss recent flexoelectric research progress and still‐unsolved problems. 10.1002/sys3.1 http://creativecommons.org/licenses/by/4.0/
doi_str_mv 10.1002/sys3.1
format Artículo Open Access
id wiley_oa_10_1002_sys3_1
institution Wiley Open Access
license_str_mv http://creativecommons.org/licenses/by/4.0/
publishDate 2025
publisher Wiley
record_format wiley_oa
spellingShingle Progress in Flexoelectric Effect Research and Related Applications
Pengwen Guo
Mengmeng Jia
Di Guo
Tianling Ren
Zhong Lin Wang
Junyi Zhai
SmartSys
Progress in Flexoelectric Effect Research and Related Applications Pengwen Guo Mengmeng Jia Di Guo Tianling Ren Zhong Lin Wang Junyi Zhai SmartSys ABSTRACTThe flexoelectric effect refers to the electromechanical coupling between electric polarization and mechanical strain gradient. It universally exists in a variety of materials in any space group, such as liquid crystals, dielectrics, biological materials, and semiconductors. Because of its unique size effect, nanoscale flexoelectricity has shown novel phenomena and promising applications in electronics, optronics, mechatronics, and photovoltaics. In this review, we provide a succinct report on the discovery and development of the flexoelectric effect, focusing on flexoelectric materials and related applications. Finally, we discuss recent flexoelectric research progress and still‐unsolved problems. 10.1002/sys3.1 http://creativecommons.org/licenses/by/4.0/
title Progress in Flexoelectric Effect Research and Related Applications
topic SmartSys
url https://onlinelibrary.wiley.com/doi/10.1002/sys3.1