Abstract

Due to the excellent specific capacity and high working voltage, manganese oxide (MnO2 ) has attracted considerable attention for aqueous zinc-ion batteries (AZIBs). However, the irreversible structural collapse and sluggish ionic diffusion lead to poor rate capability and inferior lifespan. Herein, we proposed a novel organic/inorganic hybrid cathode of carbon-based poly(4,4'-oxybisbenzenamine)/MnO2 (denoted as C@PODA/MnO2 ) for AZIBs. Various in/ex situ analyses and theoretical calculations prove that PODA chains with C=N groups can provide a more active surface/interface for ion/electron mobility and zinc ion storage in the hybrid cathode. More importantly, newly formed Mn-N interfacial bonds can effectively promote ion diffusion and prevent Mn atoms dissolution, enhancing redox kinetics and structural integrity of MnO2 . Accordingly, C@PODA/MnO2 cathode exhibits high capacity (321 mAh g-1 or 1.7 mAh cm-2 at 0.1 A g-1 ), superior rate performance (88 mAh g-1 at 10 A g-1 ) and excellent cycling stability over 2000 cycles. Hence, rational interfacial designs shed light on the development of organic/inorganic cathodes for advanced AZIBs.

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