This review identifies and analyses the interfacial challenges of aqueous zinc-ion batteries and discusses the design strategies for addressing the defined interfacial issues from the perspectives of electrolyte optimization, electrode modification and separator improvement. Display omitted Aqueous zinc-ion batteries have advantages over lithium-ion batteries, such as low cost, and good safety. However, their development is currently facing several challenges. One of the main critical challenges is their poor electrode–electrolyte interface. Addressing this requires understanding the physics and chemistry at the electrode–electrolyte interface, including the cathode-electrolyte interface and anode-electrolyte interface. This review first identifies and analyses the interfacial challenges of aqueous zinc-ion batteries. Then, it discusses the design strategies for addressing the defined interfacial issues from the perspectives of electrolyte optimization, electrode modification, and separator improvement. Finally, it provides corrective recommendations and strategies for the rational design of electrode–electrolyte interface in aqueous zinc-ion batteries towards their high-performance and reliable energy storage.