With the rapid development of modern electronic information technology, the issues caused by electromagnetic interference (EMI) are becoming more and more serious in the field of civilian. The EMI can not only hinder the normal functions of electronic devices, but also contribute to negative impact on the health of human beings and wildlife. 1,2 In addition, in the military applications, electromagnetic (EM) microwave can be used to detect aircrafts, which might expose the location information of these facilities, thus horribly threatening their survival. 3 Therefore, there is an urgent demand in both civil and military fields for high-performance MA materials that can efficiently absorb EM waves. The ideal MA materials should not only possess remarkable MA capacity over a wide frequency range, but also require some other special properties, such as light weight, thin thickness, good environment stability, etc. 4,5 To exploit the ideal MA materials