In Situ Derived Porous CoNi@Mo2C‑CNT Composites for Excellent Electromagnetic Wave Absorption Properties
To meet the requirement of intense electromagnetic wave absorption capacity, a rational electronic regulation mechanism of magnetic metals is implemented. In this work, the heterogeneous structures containing Mo2C, metal alloys, and carbon nanotubes were synthesized by the deposition and carbonizati...
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| Published in | Crystal growth & design Vol. 22; no. 12; pp. 7339 - 7348 |
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| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
American Chemical Society
07.12.2022
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| Online Access | Get full text |
| ISSN | 1528-7483 1528-7505 |
| DOI | 10.1021/acs.cgd.2c00963 |
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| Abstract | To meet the requirement of intense electromagnetic wave absorption capacity, a rational electronic regulation mechanism of magnetic metals is implemented. In this work, the heterogeneous structures containing Mo2C, metal alloys, and carbon nanotubes were synthesized by the deposition and carbonization of melamine. In contrast to single metallic elemental regulation, the electronic structure of Mo2C is obviously shifted by bimetallic regulation, which results in strong polarization relaxation in the electromagnetic field. Herein, benefiting from the tunable electronic structure between the Mo2C and CoNi, the CoNi@Mo2C-CNT composites exhibited strong interfacial polarization loss at high frequencies as well as excellent electromagnetic wave absorption performance with an effective absorption bandwidth of 5.9 GHz (2.1 mm) and a minimum reflection loss of −49.7 dB. These results indicate that the metal and Mo2C heterostructure can be synthesized successfully and that the electronic binding adjustment enhances the interface polarization loss. |
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| AbstractList | To meet the requirement of intense electromagnetic wave absorption capacity, a rational electronic regulation mechanism of magnetic metals is implemented. In this work, the heterogeneous structures containing Mo2C, metal alloys, and carbon nanotubes were synthesized by the deposition and carbonization of melamine. In contrast to single metallic elemental regulation, the electronic structure of Mo2C is obviously shifted by bimetallic regulation, which results in strong polarization relaxation in the electromagnetic field. Herein, benefiting from the tunable electronic structure between the Mo2C and CoNi, the CoNi@Mo2C-CNT composites exhibited strong interfacial polarization loss at high frequencies as well as excellent electromagnetic wave absorption performance with an effective absorption bandwidth of 5.9 GHz (2.1 mm) and a minimum reflection loss of −49.7 dB. These results indicate that the metal and Mo2C heterostructure can be synthesized successfully and that the electronic binding adjustment enhances the interface polarization loss. |
| Author | Yang, Guorui Jing, Dengwei Ding, Shujiang Weng, Xianjun Wen, Bo Wang, Yifan Liu, Xiaofeng |
| AuthorAffiliation | School of Energy and Power Engineering, State Key Laboratory of Multiphase Flow in Power Engineering 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 Xian Jiaotong University |
| AuthorAffiliation_xml | – name: School of Energy and Power Engineering, State Key Laboratory of Multiphase Flow in Power Engineering – name: Xian Jiaotong University – 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 |
| Author_xml | – sequence: 1 givenname: Bo surname: Wen fullname: Wen, Bo organization: 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 – sequence: 2 givenname: Guorui orcidid: 0000-0001-5216-8006 surname: Yang fullname: Yang, Guorui email: yangguorui@xjtu.edu.cn organization: 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 – sequence: 3 givenname: Yifan surname: Wang fullname: Wang, Yifan organization: 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 – sequence: 4 givenname: Xiaofeng surname: Liu fullname: Liu, Xiaofeng organization: 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 – sequence: 5 givenname: Xianjun surname: Weng fullname: Weng, Xianjun organization: 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 – sequence: 6 givenname: Dengwei orcidid: 0000-0001-6062-9239 surname: Jing fullname: Jing, Dengwei organization: Xian Jiaotong University – sequence: 7 givenname: Shujiang orcidid: 0000-0002-5683-0973 surname: Ding fullname: Ding, Shujiang email: dingsj@mail.xjtu.edu.cn organization: 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 |
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| Title | In Situ Derived Porous CoNi@Mo2C‑CNT Composites for Excellent Electromagnetic Wave Absorption Properties |
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