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Designing multi-tentacle electrolytes to enable fast and deep cycling of aqueous Zn batteries at low temperatures
Energy Environ. Sci., 2025, Advance ArticleDOI: 10.1039/D5EE01316J, Paper Open Access   This article is licensed under a Creative Commons Attribution 3.0 Unported Licence.Huimin Wang, Mingzi Sun, Yongqiang Yang, Junhua Zhou, Lingtao Fang, Qiyao Huang, Bolong Huang, Zijian ZhengThe multi-tentacle electrolyte (MTE) is prepared using a multi-tentacle salt, a multi-tentacle organic compound and water at competitively low salt-to-solvent and organic-to-water ratios, which achieves competitively high ionic conductivity at low temperatures.To cite this article before page numbers are assigned, use the DOI form of citation above.The content of this RSS Feed (c) The Royal Society of Chemistry
Energy Environ. Sci., 2025, Advance Article
DOI: 10.1039/D5EE01316J, Paper
DOI: 10.1039/D5EE01316J, Paper
Open Access
This article is licensed under a Creative Commons Attribution 3.0 Unported Licence.Huimin Wang, Mingzi Sun, Yongqiang Yang, Junhua Zhou, Lingtao Fang, Qiyao Huang, Bolong Huang, Zijian Zheng
The multi-tentacle electrolyte (MTE) is prepared using a multi-tentacle salt, a multi-tentacle organic compound and water at competitively low salt-to-solvent and organic-to-water ratios, which achieves competitively high ionic conductivity at low temperatures.
To cite this article before page numbers are assigned, use the DOI form of citation above.
The content of this RSS Feed (c) The Royal Society of Chemistry
The multi-tentacle electrolyte (MTE) is prepared using a multi-tentacle salt, a multi-tentacle organic compound and water at competitively low salt-to-solvent and organic-to-water ratios, which achieves competitively high ionic conductivity at low temperatures.
To cite this article before page numbers are assigned, use the DOI form of citation above.
The content of this RSS Feed (c) The Royal Society of Chemistry
