 The development of rechargeable aqueous zinc ion batteries, rasibs, has been hampered by the formation of dendritic structures on the zinc anode, which can lead to poor performance and short-service life. Interfacial engineering strategies have been developed to improve the performance of these batteries by controlling the deposition of zinc ions at the interface between the zinc anode and the electrolyte. These strategies include surface modification of the zinc anode, as well as the addition of electrolyte additives to control the deposition of zinc ions. By regulating the deposition behavior of zinc ions, the growth of dendrites and the occurrence of side reactions can be controlled, leading to improved cycling stability and longer service life. This review provides a comprehensive summary of the reaction mechanisms of interfacial modification for inhibiting the growth of dendrites and the occurrence of side reactions, as well as the research progress of interfacial engineering strategies for rasibs. Finally, future prospects and suggestions are discussed for the design of highly reversible zinc anodes. This article was authored by Binli, Xiaotan Zhang, Tingting Wang, and others. We are article.tv, links in the description below.