Flexible Cobalt-Embedded Carbon Nanosheet/Carbon Nanofiber Composites for Enhanced Electromagnetic Wave Absorption Performance
The rational design of multicomponent materials with tunable microstructures has demonstrated remarkable advantages for attenuating electromagnetic waves (EMWs). Herein, flexible Co-embedded carbon nanosheets/carbon nanofibers (Co@CNSs@CNFs) with three-dimensional structures were prepared by the com...
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| Published in | ACS applied nano materials Vol. 6; no. 7; pp. 5404 - 5413 |
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| Main Authors | , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
American Chemical Society
14.04.2023
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| Subjects | |
| Online Access | Get full text |
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| Abstract | The rational design of multicomponent materials with tunable microstructures has demonstrated remarkable advantages for attenuating electromagnetic waves (EMWs). Herein, flexible Co-embedded carbon nanosheets/carbon nanofibers (Co@CNSs@CNFs) with three-dimensional structures were prepared by the combination of electrospinning and in situ deposition methods, which demonstrate a high specific surface area (62.2 m2 g–1) and rich interfaces between the cobalt nanoparticle and the carbon matrix confirmed by the investigations of scanning electron microscopy (SEM) and transmission electron microscopy (TEM). As a result, the products achieved a broad effective absorption bandwidth of 5.6 GHz and a strong reflection loss of −76.5 dB with a thin thickness of 2.2 mm. It is found that the affluent electromagnetic wave transmission paths and enhanced interfacial polarization loss are the primary reason for the improvement of the EMW absorption performance. This work proposes a tailored way to fabricate the assembled three-dimensional structure and boost EMW absorption through the synergistic effect of multiple polarization loss mechanisms. |
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| AbstractList | The rational design of multicomponent materials with tunable microstructures has demonstrated remarkable advantages for attenuating electromagnetic waves (EMWs). Herein, flexible Co-embedded carbon nanosheets/carbon nanofibers (Co@CNSs@CNFs) with three-dimensional structures were prepared by the combination of electrospinning and in situ deposition methods, which demonstrate a high specific surface area (62.2 m2 g–1) and rich interfaces between the cobalt nanoparticle and the carbon matrix confirmed by the investigations of scanning electron microscopy (SEM) and transmission electron microscopy (TEM). As a result, the products achieved a broad effective absorption bandwidth of 5.6 GHz and a strong reflection loss of −76.5 dB with a thin thickness of 2.2 mm. It is found that the affluent electromagnetic wave transmission paths and enhanced interfacial polarization loss are the primary reason for the improvement of the EMW absorption performance. This work proposes a tailored way to fabricate the assembled three-dimensional structure and boost EMW absorption through the synergistic effect of multiple polarization loss mechanisms. |
| Author | Miao, Yunzi Wang, Silan Yang, Guorui Wang, Jiuhong Yan, Wei Ding, Shujiang Niu, Jiaxi Zhou, Ziyi Zhao, Hongyang Wen, Bo Zhang, Zhijie |
| AuthorAffiliation | Xi’an Key Laboratory of Solid Waste Recycling and Resource Recovery, State Key Laboratory of Multiphase Flow in Power Engineering, Department of Environmental Science and Engineering Xi’an Jiaotong University School of Chemistry, Engineering Research Center of Energy Storage Materials and Devices, Ministry of Education, “Four Joint Subjects One Union” School-Enterprise Joint Research Center for Power Battery Recycling & Circulation Utilization Technology School of Mechanical Engineering |
| AuthorAffiliation_xml | – name: Xi’an Jiaotong University – name: School of Mechanical Engineering – name: School of Chemistry, Engineering Research Center of Energy Storage Materials and Devices, Ministry of Education, “Four Joint Subjects One Union” School-Enterprise Joint Research Center for Power Battery Recycling & Circulation Utilization Technology – name: Xi’an Key Laboratory of Solid Waste Recycling and Resource Recovery, State Key Laboratory of Multiphase Flow in Power Engineering, Department of Environmental Science and Engineering |
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| Title | Flexible Cobalt-Embedded Carbon Nanosheet/Carbon Nanofiber Composites for Enhanced Electromagnetic Wave Absorption Performance |
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