Xinran Bi, Weipeng Dai, Xiaocheng Lu, Zidong Zhang, Junhui Men
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引用次数: 0
摘要
高性能、低成本的微波吸收材料不仅在军事领域,在民用领域也至关重要。本文提出了一种基于常见固体废弃物柳絮的原位生成-碳化一步法合成优良吸波材料的方法。结果表明,由于磁性颗粒、核壳纳米颗粒和分层多孔结构的存在,微波吸收性能得到了成功改善,从而产生了较强的传导损耗、介电损耗、磁性损耗、界面极化和多重散射。在厚度为 1.65 mm 时,16.6 和 17.1 GHz 的最大反射损耗(RLmax)分别达到 -50.66 dB 和 -49.09 dB,从而产生双峰值吸收。此外,厚度为 1.84 mm 时,有效吸收带宽(EAB,RL<-10 dB)可达 5.7 GHz(从 12.4 到 18 GHz)。只需通过浸渍和碳化就能获得很好的吸收性能,这为柳树荑花序等固体废弃物的资源化利用构建了一个富有成效且经济高效的范例。
Biomass-Derived Integrated Hierarchical Porous Carbon Embedded with Ni@C Nanoparticles for High-Performance and Cost-Effective Microwave Absorbent Design
High-performance and cost-effective microwave absorbing materials are of vital importance in not only military but also civil fields. Here, an in-situ generation-carbonization one-step method is proposed to synthesize excellent absorbents based on a common solid waste, willow catkins. The results demonstrate that the microwave absorption performance has been successfully improved owing to the magnetic particles, the core-shell nanoparticles, and the hierarchical porous structure, which results in strong conductivity loss, dielectric loss, magnetic loss, interface polarization, and multiple scattering. The maximum reflection loss (RLmax) reaches up to -50.66 dB and -49.09 dB, respectively, at 16.6 and 17.1 GHz with the thickness of 1.65 mm, resulting in double-peak absorption. What’s more, the effective absorption bandwidth (EAB, RL<−10 dB) can get up to 5.7 GHz (from 12.4 to 18 GHz) with the thickness of 1.84 mm. Great absorption performance can be obtained simply through impregnation and carbonization, which constructs a fruitful and cost-effective paradigm for resource utilization of solid waste such as willow catkins.
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