“…At present, the materials widely used in AZIBs mainly include: (1) vanadium-based materials that can promote the insertion and removal of Zn 2+ attributed to it having an open layered structure during charging/discharging processes. Nevertheless, they have poor conductivity and low operating voltage. , (2) Prussian blue analogues that possess a high output voltage and stable structure but low theoretical capacity, poor conductivity, and poor rate capability. , (3) Transition metal sulfides that have a high specific area and abundant interior defects, but instability of the material structure affects their electrochemical properties during charging and discharging. , (4) Manganese-based materials that have multiple valence states, adjustable structure, a high operating voltage, and theoretical capacity, but their structures are unstable and tend to collapse in long-term cycles. , Although a manganese-based positive electrode material in AZIBs has become the most widely used positive electrode material because of its high energy density, large capacity as well as long life, its actual application is restricted due to its poor conductivity, relatively low energy density, and incomplete understanding of the electrochemical reaction mechanism. , Therefore, the methods to strengthen the properties of manganese-based positive materials include carbon coating, metal element doping, morphology refinement, defect engineering, nanostructure engineering, and conductive polymer coatings . For example, Wang et al.…”