▎ 摘　　要

Morphological defects were generated in an undoped 3D graphene structure via the involvement of a ZnO and Mg(OH) (2) intermediate nanostructure layer placed between two layers of vapor-deposited graphene. Once the intermediate layer was etched, the 3D graphene lost support and shrank; during this process many morphological defects were formed. The electrochemical performance of the derived defective graphene utilized as the anode of a lithium (Li)-ion battery was significantly improved from similar to-382 mAh g(-1) to similar to 2204 mAh g(-1) at 0.5 A g(-1) compared to normal 3D graphene. The derived defective graphene exhibited an initial capacity of 1009 mAh g(-1) and retention of 83% at 4 A g(-1) for 500 cycles, and similar to 330 mAh g(-1) at a high rate of 20 A g(-1) . Complicated defects such as wrinkles, pores, and particles formed during the etching of the intermediate layer, were considered to contribute to the improvement of the electrochemical performance.