香蕉皮衍生的x波段微波吸收活性炭

Hojjatollah Soleimani, Jemilat Yetunde Yusuf, H. Soleimani, L. K. Chuan, M. Sabet
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引用次数: 1

摘要

随着信息技术、通信技术和电子设备的快速发展,对微波吸收材料的开发提出了更高的要求,这些材料必须具有理想的微波吸收材料的特性。从农业废弃物中提取的多孔活性炭因其具有比表面积大、介电损耗大、导电性好、密度低等独特的特性而引起了研究人员的兴趣。本文采用KOH活化香蕉皮前驱体并在不同温度下炭化制备香蕉皮活性炭。在FESEM图像中可以看到不同碳化温度下多孔结构的差异,并通过BET分析进行验证。香蕉皮活性炭样品表现出良好的微波吸收性能,BP-AC700在10.72 GHz和3.0 mm厚度下的最小反射损耗(RL)为- 40.62 dB。此外,获得的有效吸收带宽为3.5 GHz,横跨X波段频率。这种特殊的微波吸收是由于样品的良好导电损失和多孔有利的形态。本研究为未来开发简易功能农业废弃物微波吸收器提供了启示。
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Banana-peel derived activated carbon for microwave absorption at X-band frequency
The rapid advancement in information technology, communication, and electronic devices elevates the need to develop suitable materials for microwave absorption (MA) which should have the properties of an ideal microwave absorber. Porous activated carbon from agricultural wastes has piqued the interest of MA researchers due to their distinct properties such as good specific surface area, high dielectric loss, good electrical conductivity, and low density. Herein banana peel activated carbon was prepared by activating banana peel precursor with KOH and carbonizing at different temperatures. The difference in the porous structure with varying carbonization temperature was visible in the FESEM image, validated by BET analysis. The Banana Peel Activated carbon samples exhibited good microwave absorption performance, with BP-AC700 displaying a minimum Reflection Loss (RL) of −40.62 dB at 10.72 GHz & 3.0 mm thickness. In addition, the obtained effective absorption bandwidth of 3.5 GHz spanned through the X band frequency. This exceptional microwave absorption was attained due to the sample's good conductive loss and Porous favourable morphology. This study inspires the development of future facile functional agricultural waste-derived microwave absorbers.
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