Yingjie Yang, Xiaoning Zhao, Ye Tao, Ya Lin, Zhongqiang Wang
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引用次数: 0
摘要
高性能微波吸收(MA)材料正日益受到关注,以解决扩大的电磁干扰问题。在这里,通过 Co2+ 与氧官能团的配位,在氧化石墨烯(GO)片上原位生长出沸石咪唑盐有机框架(MOF)-67(ZIF-67)。通过在惰性气氛中进行碳化,成功获得了具有大量异质界面的 Co@carbon polyhedra(Co@CP)-decorated reduced GO composites(Co@CP-rGO)。这种复合材料具有优异的 MA 性能。填料含量为 10 wt%时,复合材料的最佳最小反射损耗(RL)可达到 -54.6 dB。更重要的是,厚度分别为 3.5 mm 和 2.5 mm 的复合材料的有效吸收带宽(EAB,RL < -10dB)分别为 4.75 GHz (8.18-12.93 GHz) 和 6.56 GHz (11.44GHz-18GHz),完全覆盖了 X 波段和 Ku 波段。本文受版权保护。本文受版权保护。
ZIF‐67‐derived Co@Carbon polyhedra anchored on reduced graphene oxide with multiple attenuation abilities for full X‐ and Ku‐band microwave absorption
High performance microwave absorption (MA) materials are attracting growing attention to solve the expanded electromagnetic interference problems. Herein, zeolitic imidazolate organic frameworks (MOF)‐67 (ZIF‐67) are grown in‐situ on the sheet of graphene oxide (GO) through the coordination of Co2+ with oxygen functional groups. Through carbonization in an inert atmosphere, Co@carbon polyhedra (Co@CP)‐decorated reduced GO composites (Co@CP‐rGO) with a large number of heterogeneous interfaces are successfully obtained. The composites demonstrate excellent MA performance. With a filler loading of 10 wt%, the optimal minimum reflection loss (RL) of the composite can reach ‐54.6 dB. More importantly, the composites with thickness of 3.5 mm and 2.5 mm show the effective absorption bandwidth (EAB, RL < ‐10 dB) of 4.75 GHz (8.18‐12.93 GHz) and 6.56 GHz (11.44GHz‐18GHz), fully covering the X‐band and Ku‐band. It is proposed that the synergistic effect of multiple dielectric loss, magnetic loss, reflections and scattering contributes to the high MA performance.This article is protected by copyright. All rights reserved.
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