Wang Yan, Di Xiaochuang, Gao Xiang, Wu Xinming
School of Materials and Chemical Engineering, Xi'an Technological University, Xi'an 710021, People's Republic of China.
Nanotechnology. 2020 Sep 25;31(39):395710. doi: 10.1088/1361-6528/ab97d1. Epub 2020 May 29.
Carbon-based composites have triggered tremendous attention in the development of high-efficiency microwave absorbers, due to their compatibility, light weight, and high microwave absorption. However, fabricating carbon-based absorbers with a strong absorption ability in a broad frequency range is challenging. Hence, a facile strategy was used to produce Co@C derived from a zeolitic imidazolate framework (ZIF)@ graphene. The Co@C@RGO composite was obtained by annealing the ZIF67/GO nanocomposite precursor at 650 °C in a nitrogen atmosphere. Due to the magnetic loss induced by the Co particles, the dielectric loss generated by the carbon skeletons and graphene, and the interfacial polarization between the components, the hierarchical composite exhibits superior electromagnetic (EM) wave absorption properties. The optimal reflection loss (R) of the Co@C@ RGO composite can be up to -67.5 dB at 2.6 mm, and the effective bandwidth (≥-10 dB) is 5.4 GHz (10-15.4 GHz) with a thickness of 2 mm at 20 wt% loading. The dipolar polarization caused by graphene, as well as enhanced impedance matching, synergistic effect and interfacial effect among the components, increase the microwave absorption performance of the composite. This work may open a new path to use the Co@C@RGO composite with its high-efficiency EM wave properties as an absorber.
碳基复合材料因其兼容性、轻质和高微波吸收性能,在高效微波吸收剂的开发中引起了极大关注。然而,制备在宽频率范围内具有强吸收能力的碳基吸收剂具有挑战性。因此,采用了一种简便的策略来制备源自沸石咪唑酯骨架(ZIF)@石墨烯的Co@C。通过在氮气气氛中于650℃对ZIF67/GO纳米复合前驱体进行退火,获得了Co@C@RGO复合材料。由于Co颗粒引起的磁损耗、碳骨架和石墨烯产生的介电损耗以及各组分之间的界面极化,这种分级复合材料表现出优异的电磁(EM)波吸收性能。Co@C@RGO复合材料的最佳反射损耗(R)在2.6 mm处可达-67.5 dB,在20 wt%负载量、厚度为2 mm时,有效带宽(≥-10 dB)为5.4 GHz(10 - 15.4 GHz)。石墨烯引起的偶极极化以及各组分之间增强的阻抗匹配、协同效应和界面效应,提高了复合材料的微波吸收性能。这项工作可能为将具有高效EM波性能的Co@C@RGO复合材料用作吸收剂开辟一条新途径。
