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首页> 外文期刊>ACS applied materials & interfaces >Three-Dimensional Magnesiophilic Scaffolds for Reduced Passivation toward High-Rate Mg Metal Anodes in a Noncorrosive Electrolyte
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Three-Dimensional Magnesiophilic Scaffolds for Reduced Passivation toward High-Rate Mg Metal Anodes in a Noncorrosive Electrolyte

机译:三维镁镁层支架,用于降低非腐蚀性电解质中的高速镁金属阳极的钝化

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摘要

Magnesium ion batteries are a promising alternative of the lithium counterpart; however, the poorly ion-conductive passivation layer on Mg metal makes plating/stripping difficult. In addition to the generally recognized chemical passivation, the interphase is dynamically degraded by electrochemical side reactions. Especially under high current densities, the interphase thickens, exacerbating the electrode degradation. Herein, we adopt 3D Mg3Bi2 scaffolds for Mg metal, of which the high surface area reduces the effective current density to avoid continuous electrolyte decomposition and the good Mg affinity homogenizes nucleation. The greatly alleviated passivation layer could serve as a stable solid/electrolyte interface instead. The symmetric cell delivers a low overpotential of 0.21 and 0.50 V at a current density of 0.1 and 4 mA cm(-2), respectively, and a superior cycling performance over 300 cycles at 0.5 mA cm(-2) in a noncorrosive conventional electrolyte. This work proves that the control of dynamic passivation can enable high-power density Mg metal anodes.
机译:镁离子电池是锂邻接的有希望的替代方案;然而,Mg金属上的离子导电钝化层使电镀/剥离难以。除了普遍认识到的化学钝化之外,间差异通过电化学副反应动态降解。特别是在高电流密度下,相互变化,加剧电极降解。在此,我们采用Mg金属的3D Mg3bi2支架,其中高表面积降低了有效电流密度以避免连续电解质分解和良好的Mg亲和力均质化成核。大大缓解的钝化层可以用作稳定的固体/电解质界面。对称电池以0.1和4mAcm(-2)的电流密度分别以0.1和4mAcm(-2)的电流密度提供低0.21和0.50V的低过电位,并且在非腐蚀性常规电解质中以0.5 mA cm(-2)的优异循环过高的循环性能。这项工作证明了动态钝化的控制可以使高功率密度Mg金属阳极阳极能够实现。

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  • 来源
    《ACS applied materials & interfaces》 |2020年第25期|共8页
  • 作者

    Wan Bingxin; Dou Huanglin; Zhao Xiaoli; Wang Jiahe; Zhao Wanyu; Guo Min; Zhang Yijie; Li Jinjin; Ma Zi-Feng; Yang Xiaowei;

  • 作者单位

    Tongji Univ Minist Educ Key Lab Adv Civil Engn Mat Sch Mat Sci &

    Engn Interdisciplinary Mat Res Ctr Shanghai 201804 Peoples R China;

    Tongji Univ Minist Educ Key Lab Adv Civil Engn Mat Sch Mat Sci &

    Engn Interdisciplinary Mat Res Ctr Shanghai 201804 Peoples R China;

    Tongji Univ Minist Educ Key Lab Adv Civil Engn Mat Sch Mat Sci &

    Engn Interdisciplinary Mat Res Ctr Shanghai 201804 Peoples R China;

    Tongji Univ Minist Educ Key Lab Adv Civil Engn Mat Sch Mat Sci &

    Engn Interdisciplinary Mat Res Ctr Shanghai 201804 Peoples R China;

    Tongji Univ Minist Educ Key Lab Adv Civil Engn Mat Sch Mat Sci &

    Engn Interdisciplinary Mat Res Ctr Shanghai 201804 Peoples R China;

    Tongji Univ Minist Educ Key Lab Adv Civil Engn Mat Sch Mat Sci &

    Engn Interdisciplinary Mat Res Ctr Shanghai 201804 Peoples R China;

    Tongji Univ Minist Educ Key Lab Adv Civil Engn Mat Sch Mat Sci &

    Engn Interdisciplinary Mat Res Ctr Shanghai 201804 Peoples R China;

    Tongji Univ Minist Educ Key Lab Adv Civil Engn Mat Sch Mat Sci &

    Engn Interdisciplinary Mat Res Ctr Shanghai 201804 Peoples R China;

    Shanghai Jiao Tong Univ Sch Chem &

    Chem Engn Shanghai 200240 Peoples R China;

    Tongji Univ Minist Educ Key Lab Adv Civil Engn Mat Sch Mat Sci &

    Engn Interdisciplinary Mat Res Ctr Shanghai 201804 Peoples R China;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 化学工业;
  • 关键词

    Mg metal anode; affinity; current density; passivation; solid/electrolyte interface;

    机译:Mg金属阳极;亲和力;电流密度;钝化;固体/电解质界面;

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