Multi-shell bowl-like carbon microspheres for lightweight and broadband microwave absorption

IF 11.2 1区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Yan Cheng, Yongzhen Ma, Kai Zhou, Zhixin Cai, Yanlong Ma, Binglong Zheng, Huanqin Zhao, Hongwei Zhou, Haibo Yang, Renchao Che
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Abstract

Carbon materials have made significant progress in the field of microwave absorption (MA), but achieving wide effective absorption bandwidth (EAB) at low filler content still remains a great challenge. In this work, we design multi-shell bowl-like mesoporous carbon microspheres (MBMCs) by a facile hard template method for efficient MA. It is demonstrated that the spacing between inner and outer shell and second shell thickness play a vital role on the configuration of carbon microspheres. By controlling the second addition of silica template, the microstructure of carbon microsphere evolves from spherical to bowl shape geometry. Expanded shell spacing is beneficial for forming bowl-like microsphere. The dielectric loss and MA properties are highly associated with the configuration of MBMCs. Well-proportioned MBMCs with appropriate shell spacing present wide EAB of 7.3 GHz under a low filling ratio of 12 wt.%. This work paves a new way to broaden EAB and lower filling content of carbon materials via asymmetric multilayer microstructure design.

Abstract Image

用于轻质宽带微波吸收的多壳碗状碳微球
碳材料在微波吸收(MA)领域取得了重大进展,但在低填料含量下实现宽有效吸收带宽(EAB)仍然是一项巨大挑战。在这项研究中,我们采用简便的硬模板方法设计了多壳碗状介孔碳微球(MBMCs),以实现高效的微波吸收。结果表明,内外壳间距和第二壳厚度对碳微球的构型起着至关重要的作用。通过控制二氧化硅模板的二次添加量,碳微球的微观结构从球形演变为碗状几何形状。扩大壳间距有利于形成碗状微球。介电损耗和 MA 性能与 MBMC 的结构密切相关。在 12 wt.% 的低填充率下,具有适当壳间距的匀称 MBMC 可实现 7.3 GHz 的宽 EAB。这项工作为通过非对称多层微结构设计拓宽 EAB 和降低碳材料的填充含量开辟了一条新路。
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来源期刊
Journal of Materials Science & Technology
Journal of Materials Science & Technology 工程技术-材料科学:综合
CiteScore
20.00
自引率
11.00%
发文量
995
审稿时长
13 days
期刊介绍: Journal of Materials Science & Technology strives to promote global collaboration in the field of materials science and technology. It primarily publishes original research papers, invited review articles, letters, research notes, and summaries of scientific achievements. The journal covers a wide range of materials science and technology topics, including metallic materials, inorganic nonmetallic materials, and composite materials.
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