Steric‐hindrance Effect Tuned Ion Solvation Enabling High Performance Aqueous Zinc Ion Batteries

Abstract Despite many additives have been reported for aqueous zinc ion batteries, steric‐hindrance effect of additives and its correlation with Zn 2+ solvation structure have been rarely reported. Herein, large‐sized sucrose biomolecule is selected as a paradigm additive, and steric‐hindrance electrolytes (STEs) are developed to investigate the steric‐hindrance effect for solvation structure regulation. Sucrose molecules do not participate in Zn 2+ solvation shell, but significantly homogenize the distribution of solvated Zn 2+ and enlarge Zn 2+ solvation shell with weakened Zn 2+ −H 2 O interaction due to the steric‐hindrance effect. More importantly, STEs afford the water‐shielding electric double layer and…