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Enhanced Electromagnetic Microwave Absorption Property of Peapod-like MnO@carbon Nanowires

机译:PEAPOD样MNO /碳纳米线的增强电磁微波吸收性能

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摘要

Investigating lightweight electromagnetic microwave absorption materials is still urgent because of the issue related to the electromagnetic pollution or military defense. Our findings indicate that core shell MnO@carbon nanowires (MnO@C NWs) achieve substantially enhanced microwave absorption, suggesting the suitable impedance matching induced by the synergetic effect between MnO and carbon. Furthermore, the peapod-like MnO@C NWs with internal void space can be facially synthesized by partial etching of core shell MnO@C NWs. The peapod-like MnO@C NWs with internal voids/cavities exhibit dramatically enhanced electromagnetic microwave absorption property when the carbon content is about 64 wt %, a minimum reflection loss (RL) of -55 dB at 10 wt % loading was observed at 13.6 GHz, and the bandwidth of RL less than 10 dB (90% absorption) covers 6.2 GHz at the thickness of 2 mm. The excellent electromagnetic microwave absorption performance is superior to the most of MnOx/C composites in the literatures, which probably benefits from the dielectric polarization among conductive network structure between MnO and carbon, as well as the multiple reflection and absorption induced by internal void space. Our work is expected to pave an effective way to extend the electromagnetic microwave absorption performance of MnO/C composites through partial etching to create a void space.
机译:调查轻质电磁微波吸收材料仍然是迫切的,因为与电磁污染或军事防御有关。我们的研究结果表明,核心壳MNO /碳纳米线(MNO @ C NWS)达到基本上增强的微波吸收,表明通过MNO和碳之间的协同作用引起的合适阻抗匹配。此外,具有内部空隙空间的PEAPOD样MNO @ C NWS可以通过部分蚀刻核心壳MNO @ C NWS基数地面向基础化。当碳含量约为64wt%时,具有内部空隙/腔的PEAPOD样MNO @ C NWS具有显着增强的电磁微波吸收性能,在13.6时观察到-55dB的最小反射损失(RL)-55dB的载荷。 GHz,RL的带宽小于10 dB(90%的吸收)覆盖厚度为2mm的6.2GHz。优异的电磁微波吸收性能优于文献中的大部分Mnox / C复合材料,其可能来自MNO和碳之间导电网络结构之间的介电偏振,以及由内部空隙空间引起的多反射和吸收。我们的工作预计通过部分蚀刻铺平了一种有效的方法来扩展MnO / C复合材料的电磁微波吸收性能以产生空隙空间。

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  • 来源
    《ACS applied materials & interfaces》 |2018年第46期|共10页
  • 作者

    Duan Yongli; Xiao Zhihua; Yan Xiaoya; Gao Zhenfei; Tang Yushu; Hou Liqiang; Li Qi; Ning Guoqing; Li Yongfeng;

  • 作者单位

    China Univ Petr Coll Chem Engn State Key Lab Heavy Oil Proc Beijing Changping 102249 Peoples R China;

    China Univ Petr Coll Chem Engn State Key Lab Heavy Oil Proc Beijing Changping 102249 Peoples R China;

    China Univ Petr Coll Chem Engn State Key Lab Heavy Oil Proc Beijing Changping 102249 Peoples R China;

    China Univ Petr Coll Chem Engn State Key Lab Heavy Oil Proc Beijing Changping 102249 Peoples R China;

    China Univ Petr Coll Chem Engn State Key Lab Heavy Oil Proc Beijing Changping 102249 Peoples R China;

    China Univ Petr Coll Chem Engn State Key Lab Heavy Oil Proc Beijing Changping 102249 Peoples R China;

    China Univ Petr Coll Chem Engn State Key Lab Heavy Oil Proc Beijing Changping 102249 Peoples R China;

    China Univ Petr Coll Chem Engn State Key Lab Heavy Oil Proc Beijing Changping 102249 Peoples R China;

    China Univ Petr Coll Chem Engn State Key Lab Heavy Oil Proc Beijing Changping 102249 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

    electromagnetic microwave absorption; peapod; carbon coated; MnO; nanowires;

    机译:电磁微波吸收;PEAPOD;碳涂层;MNO;纳米线;

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