电解液添加剂稳定水系电池锌负极界面的研究进展

时文超, 刘宇, 张博冕, 李琪, 韩春华, 麦立强

Research progress and prospect on electrolyte additives for stabilizing the zinc anode interface in aqueous batteries

Wenchao SHI, Yu LIU, Bomian ZHANG, Qi LI, Chunhua HAN, Liqiang MAI

图3 (a) Na⁺ 抑制NaV₃O₈·1.5H₂O溶解和锌枝晶形成的原理图^[46]；(b) 在有或没有TEAB的Zn-Zn对称电池的循环性能^[67]；(c) 在不同浓度电解液添加剂中Zn-Ti电池的库仑效率性能^[75]；(d) 由压缩双电层诱发的锌粒子相干沉积示意图^[77]

Fig. 3 (a) Schematic diagram of Na⁺ inhibiting the dissolution of NaV₃O₈·1.5H₂O and zinc dendrite formation^[46]; (b) The cycling performance of Zn-Zn symmetrical cells with or without TEAB^[67]; (c) Coulomb efficiency performances of Zn-Ti cells in different concentrations of electrolyte additives^[75]; (d) Schematic diagram of coherent deposition of zinc particles induced by a compressed double electric layer^[77]