Gel polymer electrolyte with MXene to extend cycle lifespan of flexible and rechargeable Zinc-Air batteries
ZY Chen and WQ Li and X Yang and CJ Ke and HX Chen and QY Li and JM Guo and Y He and ZP Guo and XG Liang, JOURNAL OF POWER SOURCES, 523, 231020 (2022).
DOI: 10.1016/j.jpowsour.2022.231020
Flexible and rechargeable zinc-air batteries (ZABs) are promising energy sources for wearable electronic devices due to their high energy density and safe operation. However, the performance of quasi-solid-state electrolytes gradually degrades during the ion-exchange process, mainly because of water evaporation on the open cathode side, which reduces the lifespan of ZABs. Thus, a novel electrolyte needs to be designed that can retain water to increase the cycle lifespan of ZABs. Herein, we propose a near-neutral gel polymer electrolyte (GPE) composite comprising polyvinyl alcohol (PVA) and hydroxy-functionalized MXene. Benefiting from the three-dimensional porous network and numerous surface-functionalized hydroxy groups, the network of alkalized MXene inside the PVA matrix serves as a water reservoir, resulting in enhanced water retention, and therefore, a high ionic conductivity of 77.6 mS cm(-1). The molecular dynamic simulations validate stronger hydrophilicity of alkalized MXene surface for water molecular than the pristine MXene. Resultantly, the assembled ZABs show a long cycle lifespan of 160 h at a current density of 2 mA cm(-2) and a charging- discharging period of 15 min.
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