The Synthesis and Characterisation of the High-Hardness Magnetic Material Mn[sub.2]N[sub.0.86]

The Synthesis and Characterisation of the High-Hardness Magnetic Material Mn[sub.2]N[sub.0.86]

High-quality P6[sub.3]22 Mn[sub.2]N[sub.0.86] samples were synthesised using a high-pressure metathesis reaction, and the properties of the material were investigated. The measurements revealed that the Vickers hardness was 7.47 GPa, which is less than that predicted by commonly used theoretical mod...

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Veröffentlicht in:Materials 2022-11, Vol.15 (21)
Hauptverfasser: Zhang, Shoufeng, Zhou, Chao, Wang, Xin, Bao, Kuo, Zhao, Xingbin, Zhu, Jinming, Tao, Qiang, Ge, Yufei, Yu, Zekun, Zhu, Pinwen, Zhao, Wei, Cheng, Jia’en, Ma, Teng, Ma, Shuailing, Cui, Tian
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Hardness
Magnetic properties
Mechanical properties
Transition metal compounds
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container_issue 21
container_start_page
container_title Materials
container_volume 15
creator Zhang, Shoufeng
Zhou, Chao
Wang, Xin
Bao, Kuo
Zhao, Xingbin
Zhu, Jinming
Tao, Qiang
Ge, Yufei
Yu, Zekun
Zhu, Pinwen
Zhao, Wei
Cheng, Jia’en
Ma, Teng
Ma, Shuailing
Cui, Tian
description High-quality P6[sub.3]22 Mn[sub.2]N[sub.0.86] samples were synthesised using a high-pressure metathesis reaction, and the properties of the material were investigated. The measurements revealed that the Vickers hardness was 7.47 GPa, which is less than that predicted by commonly used theoretical models. At low air pressure, Mn[sub.2]N[sub.0.86] and MnO coexist at 500 to 600 °C, and by excluding air, we succeeded in producing Mn[sub.4]N by heating Mn[sub.2]N[sub.0.86] in nitrogen atmosphere; we carefully studied this process with thermogravimetry and differential scanning calorimetry (TG-DSC). This gives a hint that to control temperature, air pressure and gas concentration might be an effective way to prepare fine Mn-N-O catalysis. Magnetic measurements indicated that ferromagnetism and antiferromagnetism coexist within Mn[sub.2]N[sub.0.86] at room temperature and that these magnetic properties are induced by nitrogen vacancies. Ab intio simulation was used to probe the nature of the magnetism in greater detail. The research contributes to the available data and the understanding of Mn[sub.2]N[sub.0.86] and suggests ways to control the formation of materials based on Mn[sub.2]N[sub.0.86].
doi_str_mv 10.3390/ma15217780
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The measurements revealed that the Vickers hardness was 7.47 GPa, which is less than that predicted by commonly used theoretical models. At low air pressure, Mn[sub.2]N[sub.0.86] and MnO coexist at 500 to 600 °C, and by excluding air, we succeeded in producing Mn[sub.4]N by heating Mn[sub.2]N[sub.0.86] in nitrogen atmosphere; we carefully studied this process with thermogravimetry and differential scanning calorimetry (TG-DSC). This gives a hint that to control temperature, air pressure and gas concentration might be an effective way to prepare fine Mn-N-O catalysis. Magnetic measurements indicated that ferromagnetism and antiferromagnetism coexist within Mn[sub.2]N[sub.0.86] at room temperature and that these magnetic properties are induced by nitrogen vacancies. Ab intio simulation was used to probe the nature of the magnetism in greater detail. 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The measurements revealed that the Vickers hardness was 7.47 GPa, which is less than that predicted by commonly used theoretical models. At low air pressure, Mn[sub.2]N[sub.0.86] and MnO coexist at 500 to 600 °C, and by excluding air, we succeeded in producing Mn[sub.4]N by heating Mn[sub.2]N[sub.0.86] in nitrogen atmosphere; we carefully studied this process with thermogravimetry and differential scanning calorimetry (TG-DSC). This gives a hint that to control temperature, air pressure and gas concentration might be an effective way to prepare fine Mn-N-O catalysis. Magnetic measurements indicated that ferromagnetism and antiferromagnetism coexist within Mn[sub.2]N[sub.0.86] at room temperature and that these magnetic properties are induced by nitrogen vacancies. Ab intio simulation was used to probe the nature of the magnetism in greater detail. 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The measurements revealed that the Vickers hardness was 7.47 GPa, which is less than that predicted by commonly used theoretical models. At low air pressure, Mn[sub.2]N[sub.0.86] and MnO coexist at 500 to 600 °C, and by excluding air, we succeeded in producing Mn[sub.4]N by heating Mn[sub.2]N[sub.0.86] in nitrogen atmosphere; we carefully studied this process with thermogravimetry and differential scanning calorimetry (TG-DSC). This gives a hint that to control temperature, air pressure and gas concentration might be an effective way to prepare fine Mn-N-O catalysis. Magnetic measurements indicated that ferromagnetism and antiferromagnetism coexist within Mn[sub.2]N[sub.0.86] at room temperature and that these magnetic properties are induced by nitrogen vacancies. Ab intio simulation was used to probe the nature of the magnetism in greater detail. The research contributes to the available data and the understanding of Mn[sub.2]N[sub.0.86] and suggests ways to control the formation of materials based on Mn[sub.2]N[sub.0.86].</abstract><pub>MDPI AG</pub><doi>10.3390/ma15217780</doi></addata></record>
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subjects Hardness
Magnetic properties
Mechanical properties
Transition metal compounds
title The Synthesis and Characterisation of the High-Hardness Magnetic Material Mn[sub.2]N[sub.0.86]
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