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Flexible Zinc-Air Batteries with Ampere-Hour Capacities and Wide-Temperature Adaptabilities.

Xiongwei ZhongZhiyang ZhengJiahe XuXiao XiaoChongbo SunMengtian ZhangJiabin MaBaomin XuKuang YuXuan ZhangHui-Ming ChengGuangmin Zhou
Published in: Advanced materials (Deerfield Beach, Fla.) (2023)
Flexible Zn-air batteries (FZABs) have significant potentials as efficient energy storage devices for wearable electronics because of their safeties and high energy-to-cost ratios. However, their application is limited by their short cycle lives, low discharge capacities per cycle, and high charge/discharge polarizations. Accordingly, herein, a poly(sodium acrylate)-polyvinyl alcohol (PANa-PVA)-ionic liquid (IL) hydrogel (PANa-PVA-IL) is prepared using a hygroscopic IL, 1-ethyl-3-methylimidazolium chloride, as an additive for twin-chain PANa-PVA. PANa-PVA-IL exhibits a high conductivity of 306.9 mS cm -1 and a water uptake of 2515 wt% at room temperature. Moreover, a low-cost bifunctional catalyst, namely, Co 9 S 8 nanoparticles anchored on N- and S-co-doped activated carbon black pearls 2000 (Co 9 S 8 -NSABP), is synthesized, which demonstrates a low O 2 reversibility potential gap of 0.629 V. FZABs based on PANa-PVA-IL and Co 9 S 8 -NSABP demonstrate high discharge capacities of 1.67 mAh cm -2 per cycle and long cycle lives of 330 h. Large-scale flexible rechargeable Zn-air pouch cells exhibit total capacities of 1.03 Ah and energy densities of 246 Wh kg cell -1 . This study provides new information about hydrogels with high ionic conductivities and water uptakes and should facilitate the application of FZABs in wearable electronics.
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