Synthesis of Copper Oxide Nanosheet Arrays for Negative Electrode Materials of Lithium-Ion Batteries

In this study, copper oxide (CuO) nanosheet arrays arc synthesized on a copper substrate by using the water bath mcthod. The CuO nanosheet arrays formed after a 10-min reaetion time exhibit the highest initial discharge specific capacity of 629.1 mA.h-g(-1) and good cycle properties (79. 6 %) retention after 100 cycles). When compared with the traditional bulk copper oxide anode materials, the CuO nanosheet array structure used as the negative electrode material for lithium ion batteries effectively solves the volume expansion during charging. Furthermore, it reduces the diffusion distance of the lithium ion in the CuO crystal, improving the specific capacity and performance of CuO used as the negative electrode materials.