Enhanced resistivity impact on the magnetoelectric properties of diphase multiferroic BaTiO3–BaFe12−xMnxO19 composite ceramics

The multiferroic magnetoelectric composites have attracted great interest due to some new expected physics and wide practical applications. However, the low resistivity restricts their further applications. In this work, multiferroic 0.8BaTiO3–0.2BaFe12–xMnxO19 composite ceramics were prepared by mi...

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Veröffentlicht in:	Physica status solidi. PSS-RRL. Rapid research letters 2017-08, Vol.11 (8), p.n/a
Hauptverfasser:	Gao, Zi‐Yan, Pu, Yong‐Ping, Wei, Jing, Dong, Zi‐Jing, Cui, Yong‐fei
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Sprache:	eng
Schlagworte:	barium hexaferrite barium titanate Barium titanates ceramic composites Ceramics Composite materials Dielectric loss Electrical resistivity electroceramics Electromagnetics Ferromagnetism Hysteresis loops Leakage current Magnetic properties multiferroic Multiferroic materials Sintering Solid state physics
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creator	Gao, Zi‐Yan Pu, Yong‐Ping Wei, Jing Dong, Zi‐Jing Cui, Yong‐fei
description	The multiferroic magnetoelectric composites have attracted great interest due to some new expected physics and wide practical applications. However, the low resistivity restricts their further applications. In this work, multiferroic 0.8BaTiO3–0.2BaFe12–xMnxO19 composite ceramics were prepared by microwave‐hydrothermal and microwave‐sintering methods. It was found that the dielectric constant of the composites increased with increasing x, while the resistivity increased gradually. Accordingly, the dielectric loss dropped as expected and the P–E loops showed slimmer shapes after introducing of Mn ions. In addition, the magnetic hysteresis loops of the composite ceramics prepared showed an excellent ferromagnetic behavior. In summary, smaller leakage current and slim P–E loops were obtained through Mn ion doping in BaFe12O19 and forming BaTiO3–BaFe12−xMnxO19 composite ceramics while maintaining their good ferromagnetic property successfully. Recently, the low resistivity has restricted further applications of multiferroic magnetoelectric composites. Here, in multiferroic 0.8BaTiO3–0.2BaFe12‐xMnxO19 composite ceramics, it was found that the dielectric constant increased with increasing x, while the resistivity increased gradually. Accordingly, the dielectric loss dropped as expected and the P–E loops showed slimmer shapes. In addition, the magnetic hysteresis loops showed an excellent ferromagnetic behavior.
doi_str_mv	10.1002/pssr.201700142
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However, the low resistivity restricts their further applications. In this work, multiferroic 0.8BaTiO3–0.2BaFe12–xMnxO19 composite ceramics were prepared by microwave‐hydrothermal and microwave‐sintering methods. It was found that the dielectric constant of the composites increased with increasing x, while the resistivity increased gradually. Accordingly, the dielectric loss dropped as expected and the P–E loops showed slimmer shapes after introducing of Mn ions. In addition, the magnetic hysteresis loops of the composite ceramics prepared showed an excellent ferromagnetic behavior. In summary, smaller leakage current and slim P–E loops were obtained through Mn ion doping in BaFe12O19 and forming BaTiO3–BaFe12−xMnxO19 composite ceramics while maintaining their good ferromagnetic property successfully. Recently, the low resistivity has restricted further applications of multiferroic magnetoelectric composites. Here, in multiferroic 0.8BaTiO3–0.2BaFe12‐xMnxO19 composite ceramics, it was found that the dielectric constant increased with increasing x, while the resistivity increased gradually. Accordingly, the dielectric loss dropped as expected and the P–E loops showed slimmer shapes. In addition, the magnetic hysteresis loops showed an excellent ferromagnetic behavior.</description><identifier>ISSN: 1862-6254</identifier><identifier>EISSN: 1862-6270</identifier><identifier>DOI: 10.1002/pssr.201700142</identifier><language>eng</language><publisher>Berlin: WILEY?VCH Verlag Berlin GmbH</publisher><subject>barium hexaferrite ; barium titanate ; Barium titanates ; ceramic composites ; Ceramics ; Composite materials ; Dielectric loss ; Electrical resistivity ; electroceramics ; Electromagnetics ; Ferromagnetism ; Hysteresis loops ; Leakage current ; Magnetic properties ; multiferroic ; Multiferroic materials ; Sintering ; Solid state physics</subject><ispartof>Physica status solidi. PSS-RRL. 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Rapid research letters</title><description>The multiferroic magnetoelectric composites have attracted great interest due to some new expected physics and wide practical applications. However, the low resistivity restricts their further applications. In this work, multiferroic 0.8BaTiO3–0.2BaFe12–xMnxO19 composite ceramics were prepared by microwave‐hydrothermal and microwave‐sintering methods. It was found that the dielectric constant of the composites increased with increasing x, while the resistivity increased gradually. Accordingly, the dielectric loss dropped as expected and the P–E loops showed slimmer shapes after introducing of Mn ions. In addition, the magnetic hysteresis loops of the composite ceramics prepared showed an excellent ferromagnetic behavior. In summary, smaller leakage current and slim P–E loops were obtained through Mn ion doping in BaFe12O19 and forming BaTiO3–BaFe12−xMnxO19 composite ceramics while maintaining their good ferromagnetic property successfully. Recently, the low resistivity has restricted further applications of multiferroic magnetoelectric composites. Here, in multiferroic 0.8BaTiO3–0.2BaFe12‐xMnxO19 composite ceramics, it was found that the dielectric constant increased with increasing x, while the resistivity increased gradually. Accordingly, the dielectric loss dropped as expected and the P–E loops showed slimmer shapes. 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PSS-RRL. Rapid research letters</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Gao, Zi‐Yan</au><au>Pu, Yong‐Ping</au><au>Wei, Jing</au><au>Dong, Zi‐Jing</au><au>Cui, Yong‐fei</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Enhanced resistivity impact on the magnetoelectric properties of diphase multiferroic BaTiO3–BaFe12−xMnxO19 composite ceramics</atitle><jtitle>Physica status solidi. PSS-RRL. Rapid research letters</jtitle><date>2017-08</date><risdate>2017</risdate><volume>11</volume><issue>8</issue><epage>n/a</epage><issn>1862-6254</issn><eissn>1862-6270</eissn><abstract>The multiferroic magnetoelectric composites have attracted great interest due to some new expected physics and wide practical applications. However, the low resistivity restricts their further applications. In this work, multiferroic 0.8BaTiO3–0.2BaFe12–xMnxO19 composite ceramics were prepared by microwave‐hydrothermal and microwave‐sintering methods. It was found that the dielectric constant of the composites increased with increasing x, while the resistivity increased gradually. Accordingly, the dielectric loss dropped as expected and the P–E loops showed slimmer shapes after introducing of Mn ions. In addition, the magnetic hysteresis loops of the composite ceramics prepared showed an excellent ferromagnetic behavior. In summary, smaller leakage current and slim P–E loops were obtained through Mn ion doping in BaFe12O19 and forming BaTiO3–BaFe12−xMnxO19 composite ceramics while maintaining their good ferromagnetic property successfully. Recently, the low resistivity has restricted further applications of multiferroic magnetoelectric composites. Here, in multiferroic 0.8BaTiO3–0.2BaFe12‐xMnxO19 composite ceramics, it was found that the dielectric constant increased with increasing x, while the resistivity increased gradually. Accordingly, the dielectric loss dropped as expected and the P–E loops showed slimmer shapes. In addition, the magnetic hysteresis loops showed an excellent ferromagnetic behavior.</abstract><cop>Berlin</cop><pub>WILEY?VCH Verlag Berlin GmbH</pub><doi>10.1002/pssr.201700142</doi><tpages>4</tpages></addata></record>
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subjects	barium hexaferrite barium titanate Barium titanates ceramic composites Ceramics Composite materials Dielectric loss Electrical resistivity electroceramics Electromagnetics Ferromagnetism Hysteresis loops Leakage current Magnetic properties multiferroic Multiferroic materials Sintering Solid state physics
title	Enhanced resistivity impact on the magnetoelectric properties of diphase multiferroic BaTiO3–BaFe12−xMnxO19 composite ceramics
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