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Last edited by Citation bot (talk | contribs) 19 days ago. (Update) |
Organic batteries, that are environmentally friendly and cost-effective, represent promising alternatives to current lithium-ion batteries. The rise of electromobility creates high demands on lithium-ion batteries, inevitably resulting in heavy consumptions of transition metals. Usage of these resources raises concerns about the limited availability of transition metals and the associated environmental footprint. Organic rechargeable batteries, free of transition metals, could alleviate these growing concerns.[1][2][3][4][5] [6][7][8][9]
References
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- ^ "Prize-winning technology for large-scale energy storage". Linköping University. Retrieved 2024-10-10.
- ^ "Organic Batteries". John Wiley & Sons, Inc. doi:10.1002/(ISSN)2566-6223. Retrieved 2024-10-10.
- ^ Li, Mengjie; Hicks, Robert Paul; Chen, Zifeng; Luo, Chao; Guo, Juchen; Wang, Chunsheng; Xu, Yunhua (2023). "Electrolytes in Organic Batteries". Chemical Reviews. 123 (4): 1712–1773. doi:10.1021/acs.chemrev.2c00374. PMID 36735935. Retrieved 2024-10-10.
- ^ Xiao, Jie; Huang, Yun; Ma, Yuwei; Li, Chengwei; Fu, Lei; Zeng, Wenping; Wang, Xichang; Li, Xing; Wang, Mingshan; Guo, Bingshu; Lin, Yuanhua; Cao, Haijun (November 2023). "Organic active materials in rechargeable batteries: Recent advances and prospects". Energy Storage Materials. 63. Bibcode:2023EneSM..6303046X. doi:10.1016/j.ensm.2023.103046. Retrieved 2024-10-10.
- ^ Bitenc, J.; Pirnat, K.; Lužanin, O.; Dominko, R. (2024). "Organic Cathodes, a Path toward Future Sustainable Batteries: Mirage or Realistic Future?". Chemistry of Materials : A Publication of the American Chemical Society. 36 (3): 1025–1040. doi:10.1021/acs.chemmater.3c02408. PMC 10870817. PMID 38370280.
- ^ Hari Prasad, P. M.; Malavika, G.; Pillai, Anuraj; Sadan, Sachu; Pillai, Zeena S. (2024). "+Emerging organic electrode materials for sustainable batteries". NPG Asia Materials. 16 (1): 37. Bibcode:2024npjAM..16...37H. doi:10.1038/s41427-024-00557-5. Retrieved 2024-10-10.
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