Mnco2o4spinel microsphere assembled with flake structure as a cathode for high-performance zinc ion battery

Aqueous rechargeable zinc-ion batteries (ZIBs) with manganese-based materials as a cathode have suffered from limitations in energy density and life cycle performance. Materials for use as cathodes for ZIBs are constantly being researched in order to achieve high electrochemical performance. Herein, a spinel MnCo2O4microsphere assembled with the interconnected micro- and nanoflake structures has been successfully synthesized via hydrothermal method. The dynamic electrochemistry properties of a zinc-ion battery with a MnCo2O4cathode are demonstrated through the study of charge/discharge process. The constructed zinc foil anode with the MnCo2O4cathode reveals the discharge capacity of 595.3 mAh g−1at 0.05 A g−1. The Zn//MnCo2O4battery achieves energy density values in the range of 714 to 207 Wh kg−1with power density values in the range of 60 to 1200 W kg−1. The good cycle stability of 85 % retention capacity after 250 cycles at 0.2 A g−1is reported. Additionally, the structural development during cycling at the atomic level is examined by ex-situ measurement, indicating that the activation process of MnCo2O4was primarily developed through the development of Mn2+/Mn3+and Co2+/Co3+electron states, inducing the electro-capacity properties of ZIBs.