Metal organic framework (ZIF-67)-derived hollow CoS2/N-doped carbon nanotube composites for extraordinary electromagnetic wave absorption

The hierarchical hollow framework involving interconnected highly conductive N-doped carbon nanotube networks and CoS2 particles were successfully prepared by metal-organic framework (MOF) derived method. After the two pyrolysis process in the atmosphere of reducing gas and inert gases, numerous car...

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Published in:Composites. Part B, Engineering Vol. 163; pp. 67 - 76
Main Authors: Yan, Jing, Huang, Ying, Han, Xiaopeng, Gao, Xiaogang, Liu, Panbo
Format: Journal Article
Language:English
Published: Elsevier Ltd 15.04.2019
Subjects:
CoS2 nanoparticles
Electromagnetic wave absorption properties
Metal-organic framework
N-doped carbon nanotube
Electromagnetic wave absorption properties
N-doped carbon nanotube
Metal-organic framework
CoS2 nanoparticles
ISSN:1359-8368, 1879-1069
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Abstract The hierarchical hollow framework involving interconnected highly conductive N-doped carbon nanotube networks and CoS2 particles were successfully prepared by metal-organic framework (MOF) derived method. After the two pyrolysis process in the atmosphere of reducing gas and inert gases, numerous carbon nanotubes interlaced on the surface of framework and CoS2 nanoparticles also attached on the surface. The electromagnetic parameters of CoS2/NCNTs composites can be well controlled by regulating the loadings of sample in sample-paraffin mixture. The results demonstrate that CoS2/NCNTs with 50% loadings show superior electromagnetic wave absorption properties in the wide frequency range, almost covering the whole X bands (8–12 GHz) only with a relative thin thickness of 1.6 mm. Hierarchical hollow structure and better impedance matching performance between N-doped carbon nanocube and CoS2 nanoparticles contribute to the enhancement of microwave absorption ability. Our work confirms that hollow framework CoS2/NCNTs composites can provide a novel idea for designing high-absorbability microwave absorbers.
AbstractList The hierarchical hollow framework involving interconnected highly conductive N-doped carbon nanotube networks and CoS2 particles were successfully prepared by metal-organic framework (MOF) derived method. After the two pyrolysis process in the atmosphere of reducing gas and inert gases, numerous carbon nanotubes interlaced on the surface of framework and CoS2 nanoparticles also attached on the surface. The electromagnetic parameters of CoS2/NCNTs composites can be well controlled by regulating the loadings of sample in sample-paraffin mixture. The results demonstrate that CoS2/NCNTs with 50% loadings show superior electromagnetic wave absorption properties in the wide frequency range, almost covering the whole X bands (8–12 GHz) only with a relative thin thickness of 1.6 mm. Hierarchical hollow structure and better impedance matching performance between N-doped carbon nanocube and CoS2 nanoparticles contribute to the enhancement of microwave absorption ability. Our work confirms that hollow framework CoS2/NCNTs composites can provide a novel idea for designing high-absorbability microwave absorbers.
Author Liu, Panbo
Huang, Ying
Han, Xiaopeng
Gao, Xiaogang
Yan, Jing
Author_xml – sequence: 1
  givenname: Jing
  surname: Yan
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  givenname: Ying
  surname: Huang
  fullname: Huang, Ying
  email: yingh@nwpu.edu.cn
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  givenname: Xiaopeng
  surname: Han
  fullname: Han, Xiaopeng
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  givenname: Xiaogang
  surname: Gao
  fullname: Gao, Xiaogang
– sequence: 5
  givenname: Panbo
  surname: Liu
  fullname: Liu, Panbo
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Keywords Electromagnetic wave absorption properties
N-doped carbon nanotube
Metal-organic framework
CoS2 nanoparticles
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Snippet The hierarchical hollow framework involving interconnected highly conductive N-doped carbon nanotube networks and CoS2 particles were successfully prepared by...
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StartPage 67
SubjectTerms CoS2 nanoparticles
Electromagnetic wave absorption properties
Metal-organic framework
N-doped carbon nanotube
Title Metal organic framework (ZIF-67)-derived hollow CoS2/N-doped carbon nanotube composites for extraordinary electromagnetic wave absorption
URI https://dx.doi.org/10.1016/j.compositesb.2018.11.008
Volume 163
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