Ultrathin cellulosic gel electrolytes with a gradient hydropenic interface for stable, high-energy and flexible zinc batteries
South China University of Technology · University College London
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Abstract
Ultrathin cellulose-based electrolytes (DCG, 10 μm) with a gradient hydropenic interface were designed to minimize side reactions and guide (002) textured deposition. DCG enhanced flexible Zn batteries to 222 W h kg −1 and 214.3 W h L −1 .
Citation impact
48
total citations
- FWCI
- 27.76
- Percentile
- 100%
- References
- 43
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Authors
9Topics & keywords
Topics
Keywords
- Electrolyte
- Zinc
- Chemistry
- Cellulosic ethanol
- Energy storage
- Chemical engineering
- Cellulose
- Biochemistry
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Funding
- GOGovernment of the United Kingdom
- URUK Research and InnovationAwards: EP/Y008707/1, 101077226
- NNNational Natural Science Foundation of ChinaAwards: U23A6005, 52103109, 22308109
- SCSouth China University of Technology
- SKState Key Laboratory of Pulp and Paper EngineeringAwards: 2024ZD02, 2023C02, 2023ZD01
- HEHORIZON EUROPE Framework Programme
- EAEngineering and Physical Sciences Research CouncilAwards: 101077226, EP/Y008707/1, EP/V027433/3
- FRFundamental Research Funds for Central Universities of the Central South UniversityAward: 2023ZYGXZR093
- BABasic and Applied Basic Research Foundation of Guangdong ProvinceAwards: 2024A1515010678, 2023B1515040013