固态聚合物电解质导电锂盐的研究进展
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王星星, 宋子钰, 吴浩, 冯文芳, 周志彬, 张恒
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Advances in conducting lithium salts for solid polymer electrolytes
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Xingxing WANG, Ziyu SONG, Hao WU, Wenfang FENG, Zhibin ZHOU, Heng ZHANG
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图6 (a) 代表性盐溶聚合物电解质的锂离子电导率,参考文献[75]许可转载,版权2018约翰威立父子公司;(b) LiEFA/PEO电解质中阴离子与聚合物基体间相互作用,参考文献[75]许可转载,版权2021约翰威立父子公司;(c) LiDFTFSI/PEO、LiMTFSI/PEO、LiMSI/PEO电解质的锂离子电导率,参考文献[76]许可转载,版权2018约翰威立父子公司;(d) 基于LiDFTFSI/PEO、LiMTFSI/PEO、LiMSI/PEO电解质耐氧化稳定性,参考文献[76]许可转载,版权2018约翰威立父子公司;(e) LiDFTFSI/PEO电解质抑制多硫化物穿梭的机理,参考文献[77]许可转载,版权2019爱思唯尔
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Fig. 6 (a) Lithium-ion conductivities of the state-of-art SPEs. Reproduced with permission from Ref.[75]. Copyright 2000 John Wiley & Sons, Inc.; (b) Schematic illustration of the interaction between EFA-anion and PEO. Reproduced with permission from Ref.[75]. Copyright 2000 John Wiley & Sons, Inc.; (c) Lithium-ion conductivities of LiDFTFSI/PEO, LiMTFSI/PEO, and LiMSI/PEO. Reproduced with permission from Ref.[76]. Copyright 2000 John Wiley & Sons, Inc.; (d) Schematic illustration on the anodic stabilities of LiDFTFSI/PEO, LiMTFSI/PEO, and LiMSI/PEO. Reproduced with permission from Ref.[76]. Copyright 2000 John Wiley & Sons, Inc.; (e) Schematic illustration of blocking the shuttle effect of polysulfide in LiDFTFSI/PEO electrolyte. Reproduced with permission from Ref.[77]. Copyright 2019 Elsevier
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