Bifunctional Hydrated Gel Electrolyte for Long-Cycling Zn-Ion Battery with NASICON-Type Cathode

Published in Advanced Functional Materials, 2021

Recommended citation: Xidong Lin‡, Guodong Zhou‡, Jiapeng Liu‡, Matthew J Robson, Jing Yu, Yuhao Wang, Zhiqi Zhang, Stephen CT Kwok, and Francesco Ciucci*. (2021). "Bifunctional Hydrated Gel Electrolyte for Long-Cycling Zn-Ion Battery with NASICON-Type Cathode." Advanced Functional Materials, 2105717. https://onlinelibrary.wiley.com/doi/full/10.1002/adfm.202105717

Aqueous Zn-ion batteries are promising and safe energy storage technologies. However, current aqueous electrolyte Zn-ion battery technology is hindered by undesirable reactions between the electrolyte and electrodes, which can lead to Zn dendrite growth, gas evolution, and cathode degradation. In this study, a hydrated gel electrolyte (HGE) that combines adiponitrile (ADN) and Zn(ClO4)2·6H2O in a polymeric framework is created. ADN is found to stabilize the interface between the electrolyte and anode/cathode, enabling smooth Zn stripping/plating and reducing parasitic reactions. The HGE is simple to fabricate, inexpensive, safe, and flexible. Zn/HGE/Zn symmetrical cells can cycle more than 1000 h at 0.5 mA cm−2 and 2000 h at 0.2 mA cm−2 without short-circuiting, indicating effective suppression of Zn dendrites. Moreover, with a NASICON-type Sr-doped Na3V2(PO4)3 (SNVP) cathode, a Zn/HGE/SNVP full cell can be cycled over 8000 times at 10 C while retaining a high capacity of 90 mAh g−1.

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Recommended citation: Lin, X., Zhou, G., Liu, J., Robson, M.J., Yu, J., Wang, Y., Zhang, Z., Kwok, S.C. and Ciucci, F., 2021. Bifunctional Hydrated Gel Electrolyte for Long-Cycling Zn-Ion Battery with NASICON-Type Cathode. Advanced Functional Materials, 2105717.