Efficient synthesis of N-doped porous carbon nanoribbon composites with selective microwave absorption performance in common wavebands
作者:Jiqi Wang, Fei Wu, Yuhong Cui, Aibo Zhang, Qiuyu Zhang**, Baoliang Zhang *
关键字:Carbon nanoribbon composites, Microwave absorption, Frequency selectivity, Solvothermal method, Calcination
论文来源:期刊
具体来源:Carbon
发表时间:2021年
One-dimensional carbon-based nanomaterials possess unique advantages in the field of microwave absorption due to their special structure. Structure design and synthesis method development of new one-dimensional carbon-based microwave absorbers are of great significance. In this paper, a rapid preparation method for N-doped porous carbon nanoribbon composites is reported, and a series of highefficiency lightweight microwave absorbers have been obtained. They can meet the requirements of different microwave absorption scenarios. Firstly, an organic-inorganic hybrid nanomaterial with ribbonshaped structure (HNR) is synthesized by solvothermal system. Then, N-doped porous carbon nanoribbon composites with different components are obtained by using HNR as precursor and being calcined at different temperature. The microwave absorbing properties show frequency selectivity. ZnS/ZnO@Ndoped porous carbon nanoribbons (ZnS/ZnO@NPCNRs) exhibit best absorption performance in Ku band and achieve full band absorption with a minimum reflection loss of 56.1 dB. ZnS@N-doped porous carbon nanoribbons (ZnS@NPCNRs) have the strongest absorption in X band. The minimum reflection loss is 55.3 dB. N-doped porous carbon nanoribbons (NPCNRs) show obvious advantages in C band and S band under an ultra-low filler content of 4%. This work proposes a rapid synthesis method for ribbonshaped carbon-based nanomaterials and provides new candidates for different microwave absorption scenarios.