Ultrahigh Piezoelectric Strains in PbZr(1−x)Ti(x)O(3) Single Crystals with Controlled Ti Content Close to the Tricritical Point

Intensive investigations of PbZr(1-x)Ti(x)O(3) (PZT) materials with the ABO(3) perovskite structure are connected with their extraordinary piezoelectric properties. Especially well known are PZT ceramics at the Morphotropic Phase Boundary (MPB), with x~0.48, whose applications are the most numerous...

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Autores principales: Lazar, Iwona, Whatmore, Roger William, Majchrowski, Andrzej, Glazer, Anthony Mike, Kajewski, Dariusz, Koperski, Janusz, Soszyński, Andrzej, Piecha, Julita, Loska, Barbara, Roleder, Krystian
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9572843/
https://www.ncbi.nlm.nih.gov/pubmed/36234049
http://dx.doi.org/10.3390/ma15196708
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author Lazar, Iwona
Whatmore, Roger William
Majchrowski, Andrzej
Glazer, Anthony Mike
Kajewski, Dariusz
Koperski, Janusz
Soszyński, Andrzej
Piecha, Julita
Loska, Barbara
Roleder, Krystian
author_facet Lazar, Iwona
Whatmore, Roger William
Majchrowski, Andrzej
Glazer, Anthony Mike
Kajewski, Dariusz
Koperski, Janusz
Soszyński, Andrzej
Piecha, Julita
Loska, Barbara
Roleder, Krystian
author_sort Lazar, Iwona
collection PubMed
description Intensive investigations of PbZr(1-x)Ti(x)O(3) (PZT) materials with the ABO(3) perovskite structure are connected with their extraordinary piezoelectric properties. Especially well known are PZT ceramics at the Morphotropic Phase Boundary (MPB), with x~0.48, whose applications are the most numerous among ferroelectrics. These piezoelectric properties are often obtained by doping with various ions at the B sites. Interestingly, we have found similar properties for undoped PZT single crystals with low Ti content, for which we have confirmed the existence of the tricritical point near x~0.06. For a PbZr(0.95 ± 0.01)Ti(0.05) (∓ 0.01)O(3) crystal, we describe the ultrahigh strain, dielectric, optical and piezoelectric properties. We interpret the ultrahigh strain observed in the region of the antiferroelectric–ferroelectric transition as an inverse piezoelectric effect generated by the coexistence of domains of different symmetries. The complex domain coexistence was confirmed by determining optical indicatrix orientations in domains. The piezoelectric coefficient in this region reached an extremely high value of 5000 pm/V. We also verified that the properties of the PZT single crystals from the region near the tricritical point are incredibly susceptible to a slight deviation in the Ti content.
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spelling pubmed-95728432022-10-17 Ultrahigh Piezoelectric Strains in PbZr(1−x)Ti(x)O(3) Single Crystals with Controlled Ti Content Close to the Tricritical Point Lazar, Iwona Whatmore, Roger William Majchrowski, Andrzej Glazer, Anthony Mike Kajewski, Dariusz Koperski, Janusz Soszyński, Andrzej Piecha, Julita Loska, Barbara Roleder, Krystian Materials (Basel) Article Intensive investigations of PbZr(1-x)Ti(x)O(3) (PZT) materials with the ABO(3) perovskite structure are connected with their extraordinary piezoelectric properties. Especially well known are PZT ceramics at the Morphotropic Phase Boundary (MPB), with x~0.48, whose applications are the most numerous among ferroelectrics. These piezoelectric properties are often obtained by doping with various ions at the B sites. Interestingly, we have found similar properties for undoped PZT single crystals with low Ti content, for which we have confirmed the existence of the tricritical point near x~0.06. For a PbZr(0.95 ± 0.01)Ti(0.05) (∓ 0.01)O(3) crystal, we describe the ultrahigh strain, dielectric, optical and piezoelectric properties. We interpret the ultrahigh strain observed in the region of the antiferroelectric–ferroelectric transition as an inverse piezoelectric effect generated by the coexistence of domains of different symmetries. The complex domain coexistence was confirmed by determining optical indicatrix orientations in domains. The piezoelectric coefficient in this region reached an extremely high value of 5000 pm/V. We also verified that the properties of the PZT single crystals from the region near the tricritical point are incredibly susceptible to a slight deviation in the Ti content. MDPI 2022-09-27 /pmc/articles/PMC9572843/ /pubmed/36234049 http://dx.doi.org/10.3390/ma15196708 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Lazar, Iwona
Whatmore, Roger William
Majchrowski, Andrzej
Glazer, Anthony Mike
Kajewski, Dariusz
Koperski, Janusz
Soszyński, Andrzej
Piecha, Julita
Loska, Barbara
Roleder, Krystian
Ultrahigh Piezoelectric Strains in PbZr(1−x)Ti(x)O(3) Single Crystals with Controlled Ti Content Close to the Tricritical Point
title Ultrahigh Piezoelectric Strains in PbZr(1−x)Ti(x)O(3) Single Crystals with Controlled Ti Content Close to the Tricritical Point
title_full Ultrahigh Piezoelectric Strains in PbZr(1−x)Ti(x)O(3) Single Crystals with Controlled Ti Content Close to the Tricritical Point
title_fullStr Ultrahigh Piezoelectric Strains in PbZr(1−x)Ti(x)O(3) Single Crystals with Controlled Ti Content Close to the Tricritical Point
title_full_unstemmed Ultrahigh Piezoelectric Strains in PbZr(1−x)Ti(x)O(3) Single Crystals with Controlled Ti Content Close to the Tricritical Point
title_short Ultrahigh Piezoelectric Strains in PbZr(1−x)Ti(x)O(3) Single Crystals with Controlled Ti Content Close to the Tricritical Point
title_sort ultrahigh piezoelectric strains in pbzr(1−x)ti(x)o(3) single crystals with controlled ti content close to the tricritical point
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9572843/
https://www.ncbi.nlm.nih.gov/pubmed/36234049
http://dx.doi.org/10.3390/ma15196708
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