LAUSR

The exploration of new nanostructures with structural advantages is always a hot topic in the current material research area. Among various well-explored morphologies, structures, and components, multi-component-active hybrid nanostructure materials are one of the best candidates for application in electrode materials. At present, spray pyrolysis (SP) and solvothermal are two popular synthesis methods of multi-component-active hybrid nanostructure materials. In this study, the two types of NiO-MnCo 2 O 4 -Ni 6 MnO 8 hybrid anode materials for LIBs are synthesized by two different methods (spray pyrolysis and solvothermal), and their differences in physical and electrochemical properties are compared. As a result, the two types of anode materials exhibit the same hierarchical hybrid compositions, but some different physical characteristics. Furthermore, the effects of these physical characteristics on electrochemical performances are studied.