引用本文:
Haiying Lu, Weijie Li. The electrolyte solvation and interfacial chemistry for anode-free sodium metal batteries[J]. Chinese Journal of Structural Chemistry,
2024, 43(11): 100334.
doi:
10.1016/j.cjsc.2024.100334
Citation: Haiying Lu, Weijie Li. The electrolyte solvation and interfacial chemistry for anode-free sodium metal batteries[J]. Chinese Journal of Structural Chemistry, 2024, 43(11): 100334. doi: 10.1016/j.cjsc.2024.100334
Citation: Haiying Lu, Weijie Li. The electrolyte solvation and interfacial chemistry for anode-free sodium metal batteries[J]. Chinese Journal of Structural Chemistry, 2024, 43(11): 100334. doi: 10.1016/j.cjsc.2024.100334
The electrolyte solvation and interfacial chemistry for anode-free sodium metal batteries
摘要:
In summary, these two works demonstrate that the solvation structure and the stable SEI layer play a critical role in the electrochemical behavior of AFSMBs. By adjusting the electrolyte salt or solvent, the solvation structure can be effectively regulated and the inorganic-rich, robust SEI with high ionic conductivity can be constructed, in turn achieving the favorable electrochemical performance. The design strategy for refining the electrolyte solvation structure and interfacial chemistry provides valuable insight and stimulates new activity in the future research and development of high-energy batteries for sodium and other rechargeable systems (e.g., rechargeable Li/K batteries).
English
The electrolyte solvation and interfacial chemistry for anode-free sodium metal batteries
Abstract:
In summary, these two works demonstrate that the solvation structure and the stable SEI layer play a critical role in the electrochemical behavior of AFSMBs. By adjusting the electrolyte salt or solvent, the solvation structure can be effectively regulated and the inorganic-rich, robust SEI with high ionic conductivity can be constructed, in turn achieving the favorable electrochemical performance. The design strategy for refining the electrolyte solvation structure and interfacial chemistry provides valuable insight and stimulates new activity in the future research and development of high-energy batteries for sodium and other rechargeable systems (e.g., rechargeable Li/K batteries).
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