@article{Zhang2023, 
author = {Meng Zhang and Laibin Zhao and Wenxin Zhao and Ting Wang and Liying Yuan and Yuying Guo and Yuxin Xie and Tingting Cheng and Alan Meng and Zhenjiang Li},
title = {Boosted electromagnetic wave absorption performance from synergistic induced polarization of SiCNWs@MnO2@PPy heterostructures},
year = {2023},
journal = {Nano Research},
volume = {16},
number = {2},
pages = {3558-3569},
keywords = {heterostructure, electromagnetic wave absorption, SiC nanowires, polarization loss, attenuation mechanism},
url = {https://www.sciopen.com/article/10.1007/s12274-022-5289-z},
doi = {10.1007/s12274-022-5289-z},
abstract = {In the last decade, electromagnetic pollution has caused people’s considerable attention. Developing absorbing material with low cost, lightweight, simple preparation, and high electromagnetic attenuation efficiency has become a feasible means to deal with this problem. In this work, core–shell SiCNWs@MnO2@PPy (NWs: nanowires, PPy: polypyrrole) heterostructures composed of SiC nanowires core, MnO2 nanosheets inter-layer, and PPy coating were successfully prepared through chemical vapor deposition and two-step electrodeposition process. Taking advantage of the interfacial polarization and dipole polarization, the obtained product displays excellent electromagnetic wave absorption performances with the minimum reflection loss (RLmin) of −50.59 dB when the matching thickness is 2.41 mm, and the optimal effective absorption bandwidth (EAB) value reaches to 6.64 GHz at a matching thickness of 2.46 mm, revealing that the SiCNWs@MnO2@PPy nanocomposite could be served as a promising electromagnetic wave absorbing material. On the basis of systematic analysis concerning the electromagnetic parameters, the dissipation process of the incident electromagnetic wave was demonstrated reasonably, which may provide a referable preparation strategy for novel heterostructures, especially nonmagnetic lightweight absorbing material.}
}