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Magnetic Diagram of the High-Pressure Stabilized Multiferroic Perovskites of the BiFe1-yScyO3 Series
Crystals, Volume: 10, Issue: 10, Start page: 950
Swansea University Author:
Andrew Barron
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DOI (Published version): 10.3390/cryst10100950
Abstract
Magnetic properties of the high-pressure stabilized perovskite BiFe1-yScyO3 phases (0.1 ≤ y ≤ 0.9) have been studied by means of magnetization measurements and neutron diffraction. The metastable perovskites of this series undergo irreversible polymorphic transformations upon annealing, the phenomen...
Published in: | Crystals |
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ISSN: | 2073-4352 |
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MDPI AG
2020
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URI: | https://cronfa.swan.ac.uk/Record/cronfa55513 |
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<?xml version="1.0"?><rfc1807><datestamp>2020-12-08T11:52:09.5758467</datestamp><bib-version>v2</bib-version><id>55513</id><entry>2020-10-26</entry><title>Magnetic Diagram of the High-Pressure Stabilized Multiferroic Perovskites of the BiFe1-yScyO3 Series</title><swanseaauthors><author><sid>92e452f20936d688d36f91c78574241d</sid><ORCID>0000-0002-2018-8288</ORCID><firstname>Andrew</firstname><surname>Barron</surname><name>Andrew Barron</name><active>true</active><ethesisStudent>false</ethesisStudent></author></swanseaauthors><date>2020-10-26</date><deptcode>CHEG</deptcode><abstract>Magnetic properties of the high-pressure stabilized perovskite BiFe1-yScyO3 phases (0.1 ≤ y ≤ 0.9) have been studied by means of magnetization measurements and neutron diffraction. The metastable perovskites of this series undergo irreversible polymorphic transformations upon annealing, the phenomenon referred to as conversion polymorphism. It has been found that the solid solutions with y ≥ 0.70 exhibit no long-range magnetic ordering regardless of their polymorph modification, while those with y ≤ 0.60 are all antiferromagnets. Depending on the scandium content, temperature and structural distortions, three types of the antiferromagnetic orderings, involving collinear, canted and cycloidal spin arrangements, have been revealed in the phases obtained via conversion polymorphism and the corresponding magnetic phase diagram has been suggested.</abstract><type>Journal Article</type><journal>Crystals</journal><volume>10</volume><journalNumber>10</journalNumber><paginationStart>950</paginationStart><paginationEnd/><publisher>MDPI AG</publisher><placeOfPublication/><isbnPrint/><isbnElectronic/><issnPrint/><issnElectronic>2073-4352</issnElectronic><keywords>high-pressure synthesis; conversion polymorphism; oxygen octahedral tilting; G-type antiferromagnetic; weak ferromagnetism; collinear magnetic ground state</keywords><publishedDay>17</publishedDay><publishedMonth>10</publishedMonth><publishedYear>2020</publishedYear><publishedDate>2020-10-17</publishedDate><doi>10.3390/cryst10100950</doi><url/><notes/><college>COLLEGE NANME</college><department>Chemical Engineering</department><CollegeCode>COLLEGE CODE</CollegeCode><DepartmentCode>CHEG</DepartmentCode><institution>Swansea University</institution><apcterm/><lastEdited>2020-12-08T11:52:09.5758467</lastEdited><Created>2020-10-26T09:55:56.8485712</Created><path><level id="1">Faculty of Science and Engineering</level><level id="2">School of Engineering and Applied Sciences - Chemical Engineering</level></path><authors><author><firstname>Elena L.</firstname><surname>Fertman</surname><order>1</order></author><author><firstname>Alexey V.</firstname><surname>Fedorchenko</surname><order>2</order></author><author><firstname>Erik</firstname><surname>Čižmár</surname><order>3</order></author><author><firstname>Serhii</firstname><surname>Vorobiov</surname><order>4</order></author><author><firstname>Alexander</firstname><surname>Feher</surname><order>5</order></author><author><firstname>Yury V.</firstname><surname>Radyush</surname><order>6</order></author><author><firstname>Anatoli V.</firstname><surname>Pushkarev</surname><order>7</order></author><author><firstname>Nikolai M.</firstname><surname>Olekhnovich</surname><order>8</order></author><author><firstname>Andrius</firstname><surname>Stanulis</surname><order>9</order></author><author><firstname>Andrew</firstname><surname>Barron</surname><orcid>0000-0002-2018-8288</orcid><order>10</order></author><author><firstname>Dmitry D.</firstname><surname>Khalyavin</surname><order>11</order></author><author><firstname>Andrei N.</firstname><surname>Salak</surname><order>12</order></author></authors><documents><document><filename>55513__18494__bd217ad7666747faac5c3f5b6ee44eea.pdf</filename><originalFilename>55513.pdf</originalFilename><uploaded>2020-10-26T10:01:36.4928797</uploaded><type>Output</type><contentLength>2798008</contentLength><contentType>application/pdf</contentType><version>Version of Record</version><cronfaStatus>true</cronfaStatus><documentNotes>© 2020 by the authors. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license</documentNotes><copyrightCorrect>true</copyrightCorrect><language>eng</language><licence>http://creativecommons.org/licenses/by/4.0/</licence></document></documents><OutputDurs/></rfc1807> |
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2020-12-08T11:52:09.5758467 v2 55513 2020-10-26 Magnetic Diagram of the High-Pressure Stabilized Multiferroic Perovskites of the BiFe1-yScyO3 Series 92e452f20936d688d36f91c78574241d 0000-0002-2018-8288 Andrew Barron Andrew Barron true false 2020-10-26 CHEG Magnetic properties of the high-pressure stabilized perovskite BiFe1-yScyO3 phases (0.1 ≤ y ≤ 0.9) have been studied by means of magnetization measurements and neutron diffraction. The metastable perovskites of this series undergo irreversible polymorphic transformations upon annealing, the phenomenon referred to as conversion polymorphism. It has been found that the solid solutions with y ≥ 0.70 exhibit no long-range magnetic ordering regardless of their polymorph modification, while those with y ≤ 0.60 are all antiferromagnets. Depending on the scandium content, temperature and structural distortions, three types of the antiferromagnetic orderings, involving collinear, canted and cycloidal spin arrangements, have been revealed in the phases obtained via conversion polymorphism and the corresponding magnetic phase diagram has been suggested. Journal Article Crystals 10 10 950 MDPI AG 2073-4352 high-pressure synthesis; conversion polymorphism; oxygen octahedral tilting; G-type antiferromagnetic; weak ferromagnetism; collinear magnetic ground state 17 10 2020 2020-10-17 10.3390/cryst10100950 COLLEGE NANME Chemical Engineering COLLEGE CODE CHEG Swansea University 2020-12-08T11:52:09.5758467 2020-10-26T09:55:56.8485712 Faculty of Science and Engineering School of Engineering and Applied Sciences - Chemical Engineering Elena L. Fertman 1 Alexey V. Fedorchenko 2 Erik Čižmár 3 Serhii Vorobiov 4 Alexander Feher 5 Yury V. Radyush 6 Anatoli V. Pushkarev 7 Nikolai M. Olekhnovich 8 Andrius Stanulis 9 Andrew Barron 0000-0002-2018-8288 10 Dmitry D. Khalyavin 11 Andrei N. Salak 12 55513__18494__bd217ad7666747faac5c3f5b6ee44eea.pdf 55513.pdf 2020-10-26T10:01:36.4928797 Output 2798008 application/pdf Version of Record true © 2020 by the authors. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license true eng http://creativecommons.org/licenses/by/4.0/ |
title |
Magnetic Diagram of the High-Pressure Stabilized Multiferroic Perovskites of the BiFe1-yScyO3 Series |
spellingShingle |
Magnetic Diagram of the High-Pressure Stabilized Multiferroic Perovskites of the BiFe1-yScyO3 Series Andrew Barron |
title_short |
Magnetic Diagram of the High-Pressure Stabilized Multiferroic Perovskites of the BiFe1-yScyO3 Series |
title_full |
Magnetic Diagram of the High-Pressure Stabilized Multiferroic Perovskites of the BiFe1-yScyO3 Series |
title_fullStr |
Magnetic Diagram of the High-Pressure Stabilized Multiferroic Perovskites of the BiFe1-yScyO3 Series |
title_full_unstemmed |
Magnetic Diagram of the High-Pressure Stabilized Multiferroic Perovskites of the BiFe1-yScyO3 Series |
title_sort |
Magnetic Diagram of the High-Pressure Stabilized Multiferroic Perovskites of the BiFe1-yScyO3 Series |
author_id_str_mv |
92e452f20936d688d36f91c78574241d |
author_id_fullname_str_mv |
92e452f20936d688d36f91c78574241d_***_Andrew Barron |
author |
Andrew Barron |
author2 |
Elena L. Fertman Alexey V. Fedorchenko Erik Čižmár Serhii Vorobiov Alexander Feher Yury V. Radyush Anatoli V. Pushkarev Nikolai M. Olekhnovich Andrius Stanulis Andrew Barron Dmitry D. Khalyavin Andrei N. Salak |
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Journal article |
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Crystals |
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10 |
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950 |
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2020 |
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Swansea University |
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2073-4352 |
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10.3390/cryst10100950 |
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MDPI AG |
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Faculty of Science and Engineering |
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School of Engineering and Applied Sciences - Chemical Engineering{{{_:::_}}}Faculty of Science and Engineering{{{_:::_}}}School of Engineering and Applied Sciences - Chemical Engineering |
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description |
Magnetic properties of the high-pressure stabilized perovskite BiFe1-yScyO3 phases (0.1 ≤ y ≤ 0.9) have been studied by means of magnetization measurements and neutron diffraction. The metastable perovskites of this series undergo irreversible polymorphic transformations upon annealing, the phenomenon referred to as conversion polymorphism. It has been found that the solid solutions with y ≥ 0.70 exhibit no long-range magnetic ordering regardless of their polymorph modification, while those with y ≤ 0.60 are all antiferromagnets. Depending on the scandium content, temperature and structural distortions, three types of the antiferromagnetic orderings, involving collinear, canted and cycloidal spin arrangements, have been revealed in the phases obtained via conversion polymorphism and the corresponding magnetic phase diagram has been suggested. |
published_date |
2020-10-17T04:09:46Z |
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1763753681922031616 |
score |
11.012678 |