Constructing Core-Shell NiCo2O4@PPy nanocomposites with controllable dielectric properties toward wide-band microwave absorption

•Core-shell NiCo2O4@PPy nanoparticles are used for electromagnetic wave absorption.•The impedance matching of NiCo2O4@PPy nanocomposites can be fully controllable by changing the ratio of PPy.•The effective absorption bandwidth is the widest among the reported absorbers based on nickel-cobalate matr...

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Published in:Journal of magnetism and magnetic materials 2023-08, Vol.580, p.170872, Article 170872
Main Authors: Wang, Ruiqi, Zhu, Xiaoyu, Chen, Ping, Ping, Chengyong, Zhou, Xue, Liu, Ying, Wei, Zhiyong
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Language:English
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Core–shell structure
Electromagnetic synergistic effect
Electromagnetic wave absorption
NiCo2O4@PPy
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container_title Journal of magnetism and magnetic materials
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creator Wang, Ruiqi
Zhu, Xiaoyu
Chen, Ping
Ping, Chengyong
Zhou, Xue
Liu, Ying
Wei, Zhiyong
description •Core-shell NiCo2O4@PPy nanoparticles are used for electromagnetic wave absorption.•The impedance matching of NiCo2O4@PPy nanocomposites can be fully controllable by changing the ratio of PPy.•The effective absorption bandwidth is the widest among the reported absorbers based on nickel-cobalate matrix so far. Nickel cobaltate@polypyrrole composite nanomicrospheres (NiCo2O4@PPy) were successfully synthesized by in situ oxidation polymerization on the surface of NiCo2O4 microspheres with polypyrrole layer as a shell. The impedance matching can be optimized by modulating the amount of polypyrrole, so as to obtain the best wave absorption performance. Furthermore, the full absorption of multiple bands can be realized under different thickness. The absorption mechanism of EMW is specifically analyzed, that is, the appropriate impedance matching and the large dielectric and magnetic losses caused by the electromagnetic synergistic effect generated by the heterogeneous interface of NiCo2O4 and PPy. NiCo2O4@PPy-0.8 achieves remarkable impedance matching in a wide frequency range compared with other samples, thus obtaining superior absorption performance. When the thickness of NiCo2O4@PPy-0.8 is 2.3 mm, the effective absorption bandwidth (EAB, RL exceeding −10 dB) at 10 wt% loading reaches 7.14 GHz (ranging from 10.86 GHz to 18 GHz, covering the whole Ku band), and the minimum reflection loss (RLmin) is −57.85 dB. This work provides an encouraging method for lightweight ultra-wideband electromagnetic wave absorption of multilayer structures based on nickel-cobalate matrix.
doi_str_mv 10.1016/j.jmmm.2023.170872
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Nickel cobaltate@polypyrrole composite nanomicrospheres (NiCo2O4@PPy) were successfully synthesized by in situ oxidation polymerization on the surface of NiCo2O4 microspheres with polypyrrole layer as a shell. The impedance matching can be optimized by modulating the amount of polypyrrole, so as to obtain the best wave absorption performance. Furthermore, the full absorption of multiple bands can be realized under different thickness. The absorption mechanism of EMW is specifically analyzed, that is, the appropriate impedance matching and the large dielectric and magnetic losses caused by the electromagnetic synergistic effect generated by the heterogeneous interface of NiCo2O4 and PPy. NiCo2O4@PPy-0.8 achieves remarkable impedance matching in a wide frequency range compared with other samples, thus obtaining superior absorption performance. 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Nickel cobaltate@polypyrrole composite nanomicrospheres (NiCo2O4@PPy) were successfully synthesized by in situ oxidation polymerization on the surface of NiCo2O4 microspheres with polypyrrole layer as a shell. The impedance matching can be optimized by modulating the amount of polypyrrole, so as to obtain the best wave absorption performance. Furthermore, the full absorption of multiple bands can be realized under different thickness. The absorption mechanism of EMW is specifically analyzed, that is, the appropriate impedance matching and the large dielectric and magnetic losses caused by the electromagnetic synergistic effect generated by the heterogeneous interface of NiCo2O4 and PPy. NiCo2O4@PPy-0.8 achieves remarkable impedance matching in a wide frequency range compared with other samples, thus obtaining superior absorption performance. 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subjects Core–shell structure
Electromagnetic synergistic effect
Electromagnetic wave absorption
NiCo2O4@PPy
title Constructing Core-Shell NiCo2O4@PPy nanocomposites with controllable dielectric properties toward wide-band microwave absorption
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