三元层状材料结构调控及性能研究进展

Haoming Ding; Mian Li; Youbing Li; Ke Chen; Yukun Xiao; Jie Zhou; Quanzheng Tao; Rosen Johanna; Hang Yin; Yuelei Bai; Bikun Zhang; Zhimei Sun; Junjie Wang; Yiming Zhang; Zhenying Huang; Peigen Zhang; Zhengming Sun; Meikang Han; Shuang Zhao; Chenxu Wang; Qing Huang

doi:10.15541/jim20230123

三元层状材料结构调控及性能研究进展

Haoming Ding, Mian Li, Youbing Li, Ke Chen, Yukun Xiao, Jie Zhou, Quanzheng Tao, Rosen Johanna, Hang Yin, Yuelei Bai, Bikun Zhang, Zhimei Sun, Junjie Wang, Yiming Zhang, Zhenying Huang, Peigen Zhang, Zhengming Sun, Meikang Han, Shuang Zhao, Chenxu WangQing Huang

材料学院

科研成果: 期刊稿件 › 文章 › 同行评审

35 引用（Scopus）

摘要

MAX/MAB phases are a series of non-van der Waals ternary layered ceramic materials with a hexagonal structure, rich in elemental composition and crystal structure, and embody physical properties of both ceramics and metals. They exhibit great potential for applications in extreme environments such as high temperature, strong corrosion, and irradiation. In recent years, two-dimensional (2D) materials derived from the MAX/MAB phase (MXene and MBene) have attracted enormous interest in the fields of materials physics and materials chemistry and become a new 2D van der Waals material after graphene and transition metal dichalcogenides. Therefore, structural modulation of MAX/MAB phase materials is essential for understanding the intrinsic properties of this broad class of layered ceramics and for investigating the functional properties of their derived structures. In this paper, we summarize new developments in MAX/MAB phases in recent years in terms of structural modulation, theoretical calculation, and fundamental application research and provide an outlook on the key challenges and prospects for the future development of these layered materials.

投稿的翻译标题	Progress in Structural Tailoring and Properties of Ternary Layered Ceramics
源语言	繁体中文
页（从-至）	845-884
页数	40
期刊	Wuji Cailiao Xuebao/Journal of Inorganic Materials
卷	38
期	8
DOI	https://doi.org/10.15541/jim20230123
出版状态	已出版 - 20 8月 2023

关键词

MAB phase
MAX phase
MXene
review
structural modulation
theoretical calculation

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10.15541/jim20230123

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链接到 Scopus 的出版物

引用此

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title = "三元层状材料结构调控及性能研究进展",

abstract = "MAX/MAB phases are a series of non-van der Waals ternary layered ceramic materials with a hexagonal structure, rich in elemental composition and crystal structure, and embody physical properties of both ceramics and metals. They exhibit great potential for applications in extreme environments such as high temperature, strong corrosion, and irradiation. In recent years, two-dimensional (2D) materials derived from the MAX/MAB phase (MXene and MBene) have attracted enormous interest in the fields of materials physics and materials chemistry and become a new 2D van der Waals material after graphene and transition metal dichalcogenides. Therefore, structural modulation of MAX/MAB phase materials is essential for understanding the intrinsic properties of this broad class of layered ceramics and for investigating the functional properties of their derived structures. In this paper, we summarize new developments in MAX/MAB phases in recent years in terms of structural modulation, theoretical calculation, and fundamental application research and provide an outlook on the key challenges and prospects for the future development of these layered materials.",

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author = "Haoming Ding and Mian Li and Youbing Li and Ke Chen and Yukun Xiao and Jie Zhou and Quanzheng Tao and Rosen Johanna and Hang Yin and Yuelei Bai and Bikun Zhang and Zhimei Sun and Junjie Wang and Yiming Zhang and Zhenying Huang and Peigen Zhang and Zhengming Sun and Meikang Han and Shuang Zhao and Chenxu Wang and Qing Huang",

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Ding, H, Li, M, Li, Y, Chen, K, Xiao, Y, Zhou, J, Tao, Q, Johanna, R, Yin, H, Bai, Y, Zhang, B, Sun, Z, Wang, J, Zhang, Y, Huang, Z, Zhang, P, Sun, Z, Han, M, Zhao, S, Wang, C & Huang, Q 2023, '三元层状材料结构调控及性能研究进展', Wuji Cailiao Xuebao/Journal of Inorganic Materials, 卷 38, 号码 8, 页码 845-884. https://doi.org/10.15541/jim20230123

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T1 - 三元层状材料结构调控及性能研究进展

AU - Ding, Haoming

AU - Li, Mian

AU - Li, Youbing

AU - Chen, Ke

AU - Xiao, Yukun

AU - Zhou, Jie

AU - Tao, Quanzheng

AU - Johanna, Rosen

AU - Yin, Hang

AU - Bai, Yuelei

AU - Zhang, Bikun

AU - Sun, Zhimei

AU - Wang, Junjie

AU - Zhang, Yiming

AU - Huang, Zhenying

AU - Zhang, Peigen

AU - Sun, Zhengming

AU - Han, Meikang

AU - Zhao, Shuang

AU - Wang, Chenxu

AU - Huang, Qing

PY - 2023/8/20

Y1 - 2023/8/20

N2 - MAX/MAB phases are a series of non-van der Waals ternary layered ceramic materials with a hexagonal structure, rich in elemental composition and crystal structure, and embody physical properties of both ceramics and metals. They exhibit great potential for applications in extreme environments such as high temperature, strong corrosion, and irradiation. In recent years, two-dimensional (2D) materials derived from the MAX/MAB phase (MXene and MBene) have attracted enormous interest in the fields of materials physics and materials chemistry and become a new 2D van der Waals material after graphene and transition metal dichalcogenides. Therefore, structural modulation of MAX/MAB phase materials is essential for understanding the intrinsic properties of this broad class of layered ceramics and for investigating the functional properties of their derived structures. In this paper, we summarize new developments in MAX/MAB phases in recent years in terms of structural modulation, theoretical calculation, and fundamental application research and provide an outlook on the key challenges and prospects for the future development of these layered materials.

AB - MAX/MAB phases are a series of non-van der Waals ternary layered ceramic materials with a hexagonal structure, rich in elemental composition and crystal structure, and embody physical properties of both ceramics and metals. They exhibit great potential for applications in extreme environments such as high temperature, strong corrosion, and irradiation. In recent years, two-dimensional (2D) materials derived from the MAX/MAB phase (MXene and MBene) have attracted enormous interest in the fields of materials physics and materials chemistry and become a new 2D van der Waals material after graphene and transition metal dichalcogenides. Therefore, structural modulation of MAX/MAB phase materials is essential for understanding the intrinsic properties of this broad class of layered ceramics and for investigating the functional properties of their derived structures. In this paper, we summarize new developments in MAX/MAB phases in recent years in terms of structural modulation, theoretical calculation, and fundamental application research and provide an outlook on the key challenges and prospects for the future development of these layered materials.

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KW - MAX phase

KW - MXene

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KW - structural modulation

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JO - Wuji Cailiao Xuebao/Journal of Inorganic Materials

JF - Wuji Cailiao Xuebao/Journal of Inorganic Materials

IS - 8

ER -

三元层状材料结构调控及性能研究进展

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