Thermal self‐protection of zinc‐ion batteries enabled by smart hygroscopic hydrogel electrolytes
Efficient thermal protection is essential to battery safety. Here, a self‐adaptive strategy is demonstrated to circumvent the thermal runaway of aqueous zinc‐ion batteries, by using a zinc chloride‐enriched hygroscopic hydrogel electrolyte. At high temperatures, water inside the hydrogel can quickly...
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sg-ntu-dr.10356-1455962023-02-28T19:53:01Z Thermal self‐protection of zinc‐ion batteries enabled by smart hygroscopic hydrogel electrolytes Yang, Peihua Feng, Chunzao Liu, Yipu Cheng, Ting Yang, Xuelong Liu, Huidong Liu, Kang Fan, Hong Jin School of Physical and Mathematical Sciences Engineering::Materials Zinc-ion Battery Thermal Self-protection Efficient thermal protection is essential to battery safety. Here, a self‐adaptive strategy is demonstrated to circumvent the thermal runaway of aqueous zinc‐ion batteries, by using a zinc chloride‐enriched hygroscopic hydrogel electrolyte. At high temperatures, water inside the hydrogel can quickly evaporate to dissipate the heat generated. Concurrently, excessive water evaporation causes a sudden drop in the ion diffusion of the hydrogel electrolyte, thereby effectively restricting the migration of ions and shutting down the battery. When the temperature lowers, the hydrogel absorbs water from the air and the battery recovers its function. The evaporation and regeneration of water in the hydrogel electrolytes are highly reversible, thus realizing intelligent and efficient thermal self‐protection of zinc‐ion batteries. By properly designing and engineering the hygroscopic hydrogel electrolytes, it is believed that other thermal self‐protective aqueous batteries with faster response can be abricated, which shows promise for a safe power supply in both consumable electronics and electric vehicles. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Accepted version P.Y. and C.F. contributed equally to this work. K.L. acknowledges the funding support from the National Natural Science Foundation of China (51976141). H.J.F. acknowledges the financial support from the Agency for Science, Technology, and Research (A*STAR) by AME Individual Research Grant (A1883c0004), and Ministry of Education by Tier 1 (RG157/19). 2020-12-30T01:54:40Z 2020-12-30T01:54:40Z 2020 Journal Article Yang, P., Feng, C., Liu, Y., Cheng, T., Yang, X., Liu, H., ... Fan, H. J. (2020). Thermal self‐protection of zinc‐ion batteries enabled by smart hygroscopic hydrogel electrolytes. Advanced Energy Materials, 10(48), 2002898-. doi:10.1002/aenm.202002898 1614-6840 https://hdl.handle.net/10356/145596 10.1002/aenm.202002898 48 10 2002898 en Advanced Energy Materials This is the accepted version of the following article: Yang, P., Feng, C., Liu, Y., Cheng, T., Yang, X., Liu, H., ... Fan, H. J. (2020). Thermal self‐protection of zinc‐ion batteries enabled by smart hygroscopic hydrogel electrolytes. Advanced Energy Materials, 10(48), 2002898-. doi:10.1002/aenm.202002898, which has been published in final form at https://doi.org/10.1002/aenm.202002898. This article may be used for non-commercial purposes in accordance with the Wiley Self-Archiving Policy [https://authorservices.wiley.com/authorresources/Journal-Authors/licensing/self-archiving.html]. application/pdf |
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Engineering::Materials Zinc-ion Battery Thermal Self-protection Yang, Peihua Feng, Chunzao Liu, Yipu Cheng, Ting Yang, Xuelong Liu, Huidong Liu, Kang Fan, Hong Jin Thermal self‐protection of zinc‐ion batteries enabled by smart hygroscopic hydrogel electrolytes |
| description |
Efficient thermal protection is essential to battery safety. Here, a self‐adaptive strategy is demonstrated to circumvent the thermal runaway of aqueous zinc‐ion batteries, by using a zinc chloride‐enriched hygroscopic hydrogel electrolyte. At high temperatures, water inside the hydrogel can quickly evaporate to dissipate the heat generated. Concurrently, excessive water evaporation causes a sudden drop in the ion diffusion of the hydrogel electrolyte, thereby effectively restricting the migration of ions and shutting down the battery. When the temperature lowers, the hydrogel absorbs water from the air and the battery recovers its function. The evaporation and regeneration of water in the hydrogel electrolytes are highly reversible, thus realizing intelligent and efficient thermal self‐protection of zinc‐ion batteries. By properly designing and engineering the hygroscopic hydrogel electrolytes, it is believed that other thermal self‐protective aqueous batteries with faster response can be abricated, which shows promise for a safe power supply in both consumable electronics and electric vehicles. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Yang, Peihua Feng, Chunzao Liu, Yipu Cheng, Ting Yang, Xuelong Liu, Huidong Liu, Kang Fan, Hong Jin |
| format |
Article |
| author |
Yang, Peihua Feng, Chunzao Liu, Yipu Cheng, Ting Yang, Xuelong Liu, Huidong Liu, Kang Fan, Hong Jin |
| author_sort |
Yang, Peihua |
| title |
Thermal self‐protection of zinc‐ion batteries enabled by smart hygroscopic hydrogel electrolytes |
| title_short |
Thermal self‐protection of zinc‐ion batteries enabled by smart hygroscopic hydrogel electrolytes |
| title_full |
Thermal self‐protection of zinc‐ion batteries enabled by smart hygroscopic hydrogel electrolytes |
| title_fullStr |
Thermal self‐protection of zinc‐ion batteries enabled by smart hygroscopic hydrogel electrolytes |
| title_full_unstemmed |
Thermal self‐protection of zinc‐ion batteries enabled by smart hygroscopic hydrogel electrolytes |
| title_sort |
thermal self‐protection of zinc‐ion batteries enabled by smart hygroscopic hydrogel electrolytes |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/145596 |
| _version_ |
1759857838022197248 |