Morphology control of hexagonal strontium ferrite micro/nano-crystals

Morphology control of hexagonal strontium ferrite micro/nano-crystals

In this study, controllable morphology evolution of hexagonal strontium ferrite (SrFe12O19) micro/nano-crystals has been demonstrated. Single phase strontium ferrite platelets with hexagonal morphology were successfully prepared by conventional ceramic process. In the hexagonal crystals, it is revea...

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Main Authors: Deyang Chen, Yuying Meng, Kinjal H. Gandha, Dechang Zeng, Hongya Yu, J. Ping Liu
Format: Article
Language:English
Published: AIP Publishing LLC 2017-05-01
Series:AIP Advances
Online Access:http://dx.doi.org/10.1063/1.4974283
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spelling doaj-46efbbc38643487c8d1b0a216a164cb92020-11-24T23:35:36ZengAIP Publishing LLCAIP Advances2158-32262017-05-0175056214056214-510.1063/1.4974283127791ADVMorphology control of hexagonal strontium ferrite micro/nano-crystalsDeyang Chen0Yuying Meng1Kinjal H. Gandha2Dechang Zeng3Hongya Yu4J. Ping Liu5School of Materials Science and Engineering, South China University of Technology, Guangzhou 510640, ChinaSchool of Materials Science and Engineering, South China University of Technology, Guangzhou 510640, ChinaDepartment of Physics, University of Texas at Arlington, Arlington, Texas 76019, USASchool of Materials Science and Engineering, South China University of Technology, Guangzhou 510640, ChinaSchool of Materials Science and Engineering, South China University of Technology, Guangzhou 510640, ChinaDepartment of Physics, University of Texas at Arlington, Arlington, Texas 76019, USAIn this study, controllable morphology evolution of hexagonal strontium ferrite (SrFe12O19) micro/nano-crystals has been demonstrated. Single phase strontium ferrite platelets with hexagonal morphology were successfully prepared by conventional ceramic process. In the hexagonal crystals, it is revealed that the anisotropic growth rate is changed, with the increasing of ball milling time, from relatively high rate along the <00l> direction (c-axis) to <hk0> direction, leading to the morphology evolution. Moreover, the optimal saturation magnetization (MS) is 69.5 emu/g, which is intensely close to the theoretical value (72 emu/g). This study provides the direct evidence of the enhanced reaction activity induced by high energy ball milling in strontium hexaferrite platelets and the obtained SrFe12O19 particles are promising for the hard magnet application and the magnetoelectric electronics.http://dx.doi.org/10.1063/1.4974283
collection DOAJ
language English
format Article
sources DOAJ
author Deyang Chen
Yuying Meng
Kinjal H. Gandha
Dechang Zeng
Hongya Yu
J. Ping Liu
spellingShingle Deyang Chen
Yuying Meng
Kinjal H. Gandha
Dechang Zeng
Hongya Yu
J. Ping Liu
Morphology control of hexagonal strontium ferrite micro/nano-crystals
AIP Advances
author_facet Deyang Chen
Yuying Meng
Kinjal H. Gandha
Dechang Zeng
Hongya Yu
J. Ping Liu
author_sort Deyang Chen
title Morphology control of hexagonal strontium ferrite micro/nano-crystals
title_short Morphology control of hexagonal strontium ferrite micro/nano-crystals
title_full Morphology control of hexagonal strontium ferrite micro/nano-crystals
title_fullStr Morphology control of hexagonal strontium ferrite micro/nano-crystals
title_full_unstemmed Morphology control of hexagonal strontium ferrite micro/nano-crystals
title_sort morphology control of hexagonal strontium ferrite micro/nano-crystals
publisher AIP Publishing LLC
series AIP Advances
issn 2158-3226
publishDate 2017-05-01
description In this study, controllable morphology evolution of hexagonal strontium ferrite (SrFe12O19) micro/nano-crystals has been demonstrated. Single phase strontium ferrite platelets with hexagonal morphology were successfully prepared by conventional ceramic process. In the hexagonal crystals, it is revealed that the anisotropic growth rate is changed, with the increasing of ball milling time, from relatively high rate along the <00l> direction (c-axis) to <hk0> direction, leading to the morphology evolution. Moreover, the optimal saturation magnetization (MS) is 69.5 emu/g, which is intensely close to the theoretical value (72 emu/g). This study provides the direct evidence of the enhanced reaction activity induced by high energy ball milling in strontium hexaferrite platelets and the obtained SrFe12O19 particles are promising for the hard magnet application and the magnetoelectric electronics.
url http://dx.doi.org/10.1063/1.4974283
work_keys_str_mv AT deyangchen morphologycontrolofhexagonalstrontiumferritemicronanocrystals
AT yuyingmeng morphologycontrolofhexagonalstrontiumferritemicronanocrystals
AT kinjalhgandha morphologycontrolofhexagonalstrontiumferritemicronanocrystals
AT dechangzeng morphologycontrolofhexagonalstrontiumferritemicronanocrystals
AT hongyayu morphologycontrolofhexagonalstrontiumferritemicronanocrystals
AT jpingliu morphologycontrolofhexagonalstrontiumferritemicronanocrystals
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