Induced Crystallization‐Controllable Nanoarchitectonics of 3D‐Ordered Hierarchical Macroporous Co@N‐Doped Carbon Frameworks for Enhanced Microwave Absorption

材料科学 碳化 反射损耗 金属有机骨架 微波食品加热 微型多孔材料 吸收(声学) 纳米技术 碳纤维 纳米颗粒 多孔性 衰减 双金属 化学工程 结晶 吸附 复合材料 扫描电子显微镜 光学 复合数 计算机科学 电信 有机化学 工程类 化学 物理
作者
Peng He,Wenjun Ma,Jian Xu,Jie Wei,Xiaoyun Liu,Peiyuan Zuo,Zhong‐Kai Cui,Qixin Zhuang
出处
期刊:Small [Wiley]
卷期号:19 (1) 被引量:42
标识
DOI:10.1002/smll.202204649
摘要

The construction of ordered hierarchical porous structures in metal-organic frameworks (MOFs) and their derivatives is highly promising to meet the low-density and high-performance demands of microwave absorption materials. However, traditional methods based on sacrificial templates or corrosive agents inevitably suffer from the collapse of the microporous framework and the accumulation of nanoparticles during the carbonization transformation, resulting in the deteriorating impedance match, which greatly limits the incident and attenuation of microwaves. Herein, an induced crystallization and controllable nanoarchitectonics strategy is employed to replace traditional growing-etching methods and successfully synthesize carbonized 3D-ordered macroporous Co@N-doped carbon (3DOM Co@NDC) based on the 3D-ordered template. The obtained 3D-ordered macroporous structure ensures the stable growth of hybrid carbon frameworks and CoC nanoparticles without collapse, preserves abundant interfaces for both the incident and attenuation performance, so as to significantly improve the impedance matching and absorption properties compared to conventional MOFs derivatives. The minimum reflection loss of 3DOM Co@NDC is -57.36 dB at the thickness of 1.9 mm, and the effective bandwidth is 7.36 GHz at 1.6 mm. Moreover, the innovative strategy to prepare 3D-ordered hierarchical macroporous structures opens up a new avenue for advanced MOFs-derived absorbers with excellent performance.

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