Boosting Zn Intercalation in High-Performance Aqueous Zinc-Ion Batteries with Coupling-Induced Biphase Interface.

Effectively addressing the trade-off between fast charging kinetics and long cycle life of aqueous zinc ion batteries (AZIBs) has proven challenging due to JahnTeller distortion and high lattice strain induced by inserted Zn ions in cathode structures. Herein, a hybrid cathode of NiCoO-MnO with abundant electrochemical phase interfaces and interface coupling induced defects is developed via a simple electrochemical oxidation strategy to boost rich redox reactions. The formation of Ni─O─Mn and Co─O─Mn bonds promoted the electron transfer between the biphase interface, adjusted the electron density of the material body, effectively alleviated the electrostatic effect between Zn embedding and the main frame, and further maintained the stability of the structure and alleviated the dissolution of manganese.