▎ 摘　　要

The biggest challenge for electromagnetic wave absorption (EMA) devices is to simultaneously achieve high reflection loss (RL), wide absorption bandwidth, and ultrathin thickness. According to the EMA mechanism of the electromagnetic wave (EMW) absorbers, exceptional EMA properties can be achieved by a combination of threedimensional (3D) cellular structure and synergistically electric/magnetic losses of the electromagnetic energy. In this study, an MXene/graphene oxide (GO)/Co3O4 nanorods (NRs) (MGCR) aerogel composed of twodimensional (2D) MXene and GO nanosheets, and one-dimensional (1D) Co3O4 NRs was developed to achieve desirable EMA properties. Here, MXene and GO manipulate the dielectric loss, and the Co3O4 NRs provide magnetic loss. The MGCR aerogel shows excellent EMA performances with an impressive minimum RL (RLmin) of - 71.87 dB at a thickness of 2.07 mm and an outstanding maximum effective absorption bandwidth (EAB) of 6.88 GHz with a density of 9 mg cm-3. And the RL