Xia Huan, Xu Gang, Cao Xin, Miao Chunyang, Zhang Hanning, Chen Pengyu, Zhou Yang, Zhang Wei, Sun ZhengMing
Jiangsu Key Laboratory of Advanced Metallic Materials School of Materials Science and Engineering, Southeast University, Nanjing, 211189, China.
Jiangsu National Synergetic Innovation Center for Advanced Materials Key Laboratory of Flexible Electronics and Institute of Advanced Materials, Nanjing Tech University, Nanjing, 211816, China.
Adv Mater. 2023 Sep;35(36):e2301996. doi: 10.1002/adma.202301996. Epub 2023 Jul 20.
Flexible zinc-ion batteries (ZIBs) with high capacity and long cycle stability are essential for wearable electronic devices. Hydrogel electrolytes have been developed to provide ion-transfer channels while maintaining the integrity of ZIBs under mechanical strain. However, hydrogel matrices are typically swollen with aqueous salt solutions to increase ionic conductivity, which can hinder intimate contact with electrodes and reduce mechanical properties. To address this, a single-Zn-ion-conducting hydrogel electrolyte (SIHE) is developed by integrating polyacrylamide network and pseudo-polyrotaxane structure. The SIHE exhibits a high Zn transference number of 0.923 and a high ionic conductivity of 22.4 mS cm at room temperature. Symmetric batteries with SIHE demonstrate stable Zn plating/stripping performance for over 160 h, with a homogenous and smooth Zn deposition layer. Full cells with La-V O cathodes exhibit a high capacity of 439 mA h g at 0.1 A g and excellent capacity retention of 90.2% after 3500 cycles at 5 A g . Moreover, the flexible ZIBs display stable electrochemical performance under harsh conditions, such as bending, cutting, puncturing, and soaking. This work provides a simple design strategy for single-ion-conducting hydrogel electrolytes, which could pave the way for long-life aqueous batteries.
具有高容量和长循环稳定性的柔性锌离子电池(ZIBs)对于可穿戴电子设备至关重要。水凝胶电解质已被开发出来,以提供离子传输通道,同时在机械应变下保持ZIBs的完整性。然而,水凝胶基质通常会被盐水溶液溶胀以提高离子电导率,这可能会阻碍与电极的紧密接触并降低机械性能。为了解决这个问题,通过整合聚丙烯酰胺网络和准聚轮烷结构开发了一种单锌离子导电水凝胶电解质(SIHE)。SIHE在室温下表现出0.923的高锌迁移数和22.4 mS cm的高离子电导率。具有SIHE的对称电池在超过160小时内表现出稳定的锌电镀/剥离性能,锌沉积层均匀且光滑。具有La-V O阴极的全电池在0.1 A g下表现出439 mA h g的高容量,在5 A g下循环3500次后容量保持率高达90.2%。此外,柔性ZIBs在弯曲、切割、穿刺和浸泡等苛刻条件下仍表现出稳定的电化学性能。这项工作为单离子导电水凝胶电解质提供了一种简单的设计策略,可为长寿命水系电池铺平道路。
