Self-organized Bi-rich grain boundary precipitates for realizing steep magnetic-field-driven metamagnetic transition in Bi-doped Mn2Sb

Zhishuo Zhang; Yuxi Zhang; Xiaohua Luo; Shengcan Ma; Hai Zeng; Guang Yu; Xianming Zheng; Changcai Chen; Yongfeng Hu; Feng Xu

doi:https://doi.org/10.1016/j.actamat.2020.09.050

doi.org/10.1016/j.actamat.2020.09.050

Self-organized Bi-rich grain boundary precipitates for realizing steep magnetic-field-driven metamagnetic transition in Bi-doped Mn2Sb

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..., Feng Xu

87

Acta Materialia9.40

Volume: 200, Pages: 835 - 847

Published: Nov 1, 2020

Abstract

In the present work, we reveal a novel finding, that is, self-assembled grain boundary precipitates for realizing the magnetic-field-induced metamagnetic transition by employing low melting point metal in materials. This strategy has been experimentally verified in a well-established ferrimagnetic compound Mn2Sb by doping the bismuth (Bi) element with a low melting point of just 271.3°C. Bi solidifies later than the Mn2(Sb,Bi) main phase in...

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Paper Details

Title

Self-organized Bi-rich grain boundary precipitates for realizing steep magnetic-field-driven metamagnetic transition in Bi-doped Mn2Sb

DOI

doi.org/10.1016/j.actamat.2020.09.050

Published Date

Nov 1, 2020

Journal

Acta Materialia

Volume

200

Pages

835 - 847

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