Microwave-accelerated rapid synthesis of high-quality yttrium iron garnet nano powders with improved magnetic properties

Microwave-accelerated rapid synthesis of high-quality yttrium iron garnet nano powders with improved magnetic properties

High-quality cubic yttrium iron garnet (YIG) nano powders have been rapidly synthesized by a chemical co-precipitation plus microwave heating method. The average particle size of the synthesized YIG nano powders were about 30 nm. The atoms in the particle were near completely orderly arranged by mic...

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Main Authors: Junliang Liu, Ping Yu, Qimei Jin, Chong Zhang, Ming Zhang, V. G. Harris
Format: Article
Language:English
Published: Taylor & Francis Group 2018-01-01
Series:Materials Research Letters
Subjects:
Yttrium iron garnet
magnetic materials
nanoparticles
microwave assistance
Online Access:http://dx.doi.org/10.1080/21663831.2017.1386240
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spelling doaj-4d00cb51ffcb417e9636caca7c5e255f2020-11-25T00:34:18ZengTaylor & Francis GroupMaterials Research Letters2166-38312018-01-0161364010.1080/21663831.2017.13862401386240Microwave-accelerated rapid synthesis of high-quality yttrium iron garnet nano powders with improved magnetic propertiesJunliang Liu0Ping Yu1Qimei Jin2Chong Zhang3Ming Zhang4V. G. Harris5Yangzhou UniversityYangzhou UniversityYangzhou UniversityYangzhou UniversityYangzhou UniversityNortheastern UniversityHigh-quality cubic yttrium iron garnet (YIG) nano powders have been rapidly synthesized by a chemical co-precipitation plus microwave heating method. The average particle size of the synthesized YIG nano powders were about 30 nm. The atoms in the particle were near completely orderly arranged by microwave activation, resulting in a higher saturation magnetization of 29.7 emu/g and a lower coercive field of 21 Oe compared with those of conventional heating treatment. This method provides a time-saving and easily controlled route for the synthesis of high-quality YIG nano materials in large-scale production.http://dx.doi.org/10.1080/21663831.2017.1386240Yttrium iron garnetmagnetic materialsnanoparticlesmicrowave assistance
collection DOAJ
language English
format Article
sources DOAJ
author Junliang Liu
Ping Yu
Qimei Jin
Chong Zhang
Ming Zhang
V. G. Harris
spellingShingle Junliang Liu
Ping Yu
Qimei Jin
Chong Zhang
Ming Zhang
V. G. Harris
Microwave-accelerated rapid synthesis of high-quality yttrium iron garnet nano powders with improved magnetic properties
Materials Research Letters
Yttrium iron garnet
magnetic materials
nanoparticles
microwave assistance
author_facet Junliang Liu
Ping Yu
Qimei Jin
Chong Zhang
Ming Zhang
V. G. Harris
author_sort Junliang Liu
title Microwave-accelerated rapid synthesis of high-quality yttrium iron garnet nano powders with improved magnetic properties
title_short Microwave-accelerated rapid synthesis of high-quality yttrium iron garnet nano powders with improved magnetic properties
title_full Microwave-accelerated rapid synthesis of high-quality yttrium iron garnet nano powders with improved magnetic properties
title_fullStr Microwave-accelerated rapid synthesis of high-quality yttrium iron garnet nano powders with improved magnetic properties
title_full_unstemmed Microwave-accelerated rapid synthesis of high-quality yttrium iron garnet nano powders with improved magnetic properties
title_sort microwave-accelerated rapid synthesis of high-quality yttrium iron garnet nano powders with improved magnetic properties
publisher Taylor & Francis Group
series Materials Research Letters
issn 2166-3831
publishDate 2018-01-01
description High-quality cubic yttrium iron garnet (YIG) nano powders have been rapidly synthesized by a chemical co-precipitation plus microwave heating method. The average particle size of the synthesized YIG nano powders were about 30 nm. The atoms in the particle were near completely orderly arranged by microwave activation, resulting in a higher saturation magnetization of 29.7 emu/g and a lower coercive field of 21 Oe compared with those of conventional heating treatment. This method provides a time-saving and easily controlled route for the synthesis of high-quality YIG nano materials in large-scale production.
topic Yttrium iron garnet
magnetic materials
nanoparticles
microwave assistance
url http://dx.doi.org/10.1080/21663831.2017.1386240
work_keys_str_mv AT junliangliu microwaveacceleratedrapidsynthesisofhighqualityyttriumirongarnetnanopowderswithimprovedmagneticproperties
AT pingyu microwaveacceleratedrapidsynthesisofhighqualityyttriumirongarnetnanopowderswithimprovedmagneticproperties
AT qimeijin microwaveacceleratedrapidsynthesisofhighqualityyttriumirongarnetnanopowderswithimprovedmagneticproperties
AT chongzhang microwaveacceleratedrapidsynthesisofhighqualityyttriumirongarnetnanopowderswithimprovedmagneticproperties
AT mingzhang microwaveacceleratedrapidsynthesisofhighqualityyttriumirongarnetnanopowderswithimprovedmagneticproperties
AT vgharris microwaveacceleratedrapidsynthesisofhighqualityyttriumirongarnetnanopowderswithimprovedmagneticproperties
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