Linkage Effect Induced by Hierarchical Architecture in Magnetic MXene-based Microwave Absorber

Lei Cai, Haojie Jiang, Fei Pan, Hongsheng Liang, Yuyang Shi, Xiao Wang, Jie Cheng, Yang Yang, Xiang Zhang, Zhong Shi, Hongjing Wu, Wei Lu

科研成果: 期刊稿件文章同行评审

38 引用 (Scopus)

摘要

Hierarchical architecture engineering is desirable in integrating the physical-chemical behaviors and macroscopic properties of materials, which present great potential for developing multifunctional microwave absorption materials. However, the intrinsic mechanisms and correlation conditions among cellular units have not been revealed, which are insufficient to maximize the fusion of superior microwave absorption (MA) and derived multifunctionality. Herein, based on three models (disordered structure, porous structure, lamellar structure) of structural units, a range of MXene-aerogels with variable constructions are fabricated by a top-down ice template method. The aerogel with lamellar structure with a density of only 0.015 g cm−3 exhibits the best MA performance (minimum reflection loss: −53.87 dB, effective absorption bandwidth:6.84 GHz) at a 6 wt.% filling ratio, which is preferred over alternative aerogels with variable configurations. This work elucidates the relationship between the hierarchical architecture and the superior MA performance. Further, the MXene/CoNi Composite aerogel with lamellar structure exhibits >90% compression stretch after 1000 cycles, excellent compressive properties, and elasticity, as well as high hydrophobicity and thermal insulation properties, broadening the versatility of MXene-based aerogel applications. In short, through precise microstructure design, this work provides a conceptually novel strategy to realize the integration of electromagnetic stealth, thermal insulation, and load-bearing capability simultaneously.

源语言英语
文章编号2306698
期刊Small
20
9
DOI
出版状态已出版 - 1 3月 2024

指纹

探究 'Linkage Effect Induced by Hierarchical Architecture in Magnetic MXene-based Microwave Absorber' 的科研主题。它们共同构成独一无二的指纹。

引用此