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The synergetic electromagnetic properties and enhanced microwave absorption of BiFeO3/BaFe7(MnTi)2.5O19 composite

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Abstract

The effective microwave absorption materials could contribute to alleviating the electromagnetic wave pollution. However, conventional microwave absorption materials usually suffer from insufficient absorption intensity and the narrow effective absorption bandwidth. Herein, BiFeO3/BaFe7(MnTi)2.5O19 composites are proposed to address these issues through offering synergetic electromagnetic properties and proper electromagnetic properties. BiFeO3 combined with BaFe7(MnTi)2.5O19 exhibits dielectric multiple relaxation behaviors, strong ferromagnetic resonance and electromagnetic matching, ensuring increased multi-band microwave absorption. Accordingly, the minimum reflection loss (RL) of the composite with volume ratio of 1.5:1 reaches − 48 dB, and the bandwidth less than − 10 dB covers multi-frequencies at C, X and Ku band. These results suggest that BiFeO3/BaFe7(MnTi)2.5O19 composite could be a promising microwave absorption material in imaging, healthcare, information safety and military fields.

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Acknowledgements

This research was supported by the National Science Foundation of China (Grant Nos. 11774027, 51372282, 51132002 and 11604237).

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Author notes

  1. Chen Han and Jin-Cheng Shu have contributed equally to this work.

Authors and Affiliations

  1. School of Material Science and Engineering, Beijing Institute of Technology, Beijing, 100081, China

    Chen Han, Jin-Cheng Shu, Kun Xiang & Mao-Sheng Cao

  2. Department of Physics, Tangshan Normal University, Tangshan, 063000, China

    Hui-Jing Yang

  3. School of Information Engineering, Minzu University of China, Beijing, 100081, China

    Jie Yuan

Authors
  1. Chen Han
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  2. Jin-Cheng Shu
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  3. Kun Xiang
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  6. Mao-Sheng Cao
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Correspondence to Hui-Jing Yang, Jie Yuan or Mao-Sheng Cao.

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Han, C., Shu, JC., Xiang, K. et al. The synergetic electromagnetic properties and enhanced microwave absorption of BiFeO3/BaFe7(MnTi)2.5O19 composite. J Mater Sci: Mater Electron 29, 19739–19747 (2018). https://doi.org/10.1007/s10854-018-0099-5

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