中文摘要：

cobaltosic-oxide-nanosheets/reduced-graphene-oxide 合成(CoNSs@RGO ) 成功地作为一个小宽带电磁波吸收器被准备。样品厚度的效果和数量合成在吸收上补充说性质彻底地被调查到石蜡样品。由于公司 ₃ O ₄, 很高，波浪吸收材料的 surface-to-volume 比率在吸收性质正在导致大改进。为 3.6 公里的厚度的 CoNSs@RGO 合成 was-45.15 dB 的最大的茶点损失，和有思考损失 below-10 dB 的最好的吸收带宽是有 2.9 公里的厚度的 7.14 GHz。另外，微波吸收的山峰与增加吸收涂层的厚度向低频率区域变了。电磁波吸收的机制被归因于阻抗象 RGO 的绝缘的松驰和极化一样匹配 CoNSs@RGO。比作以前报导的吸收材料， CoNSs@RGO 在高频率乐队为申请作为一个无足轻重的人和高度有效的吸收材料显示出更好的性能。

英文摘要：

A cobaltosic-oxide-nanosheets/reduced-graphene-oxide composite （CoNSs@RGO） was successfully prepared as a light-weight broadband electromagnetic wave absorber. The effects of the sample thickness and amount of composite added to paraffin samples on the absorption properties were thoroughly investigated. Due to the nanosheet-like structure of Co3O4, the surface-to-volume ratio of the wave absorption material was very high, resulting in a large enhancement in the absorption properties. The maximum refection loss of the CoNSs@RGO composite was -45.15 dB for a thickness of 3.6 mm, and the best absorption bandwidth with a reflection loss below -10 dB was 7.14 GHz with a thickness of 2.9 mm. In addition, the peaks of microwave absorption shifted towards the low frequency region with increasing thickness of the absorbing coatings. The mechanism of electromagnetic wave absorption was attributed to impedance matching of CoNSs@RGO as well as the dielectric relaxation and polarization of RGO. Compared to previously reported absorbing materials, CoNSs@RGO showed better performance as a lightweight and highly efficient absorbing material for application in the high frequency band.