期刊
NANO ENERGY
卷 70, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.nanoen.2020.104479
关键词
Sodium metal anode; Sodium super ionic conductor; Steady nucleation; Dendrite-free; Reaction kinetics
类别
资金
- National Natural Science Foundation of China [21676165, 21938005, 21905206]
- Shanghai Sail Program [19YF1450800]
Metallic sodium anodes are highly attractive due to the high specific capacity and natural abundance, but the uncontrollable Na dendrite issues impede its practical implementation. Nucleation, growth and dissolution of Na are an inseparable sequential process, so the variations in these reaction thermodynamics and kinetics could lead to dendrite proliferation and low utilization of Na anode. It appears to be particularly important to optimize the whole continuous process by introducing a super ionic conductor material, Na3V2(PO4)(3) (NVP), as the modulation medium of continuous nucleation, growth and dissolution to suppress Na dendrite in this work. The initial intercalation reaction of Na+ into NVP thermodynamically improves the affinity of Na and NVP, leading to a low-barrier nucleation and homogenous Na-ion flux. Importantly, the super ionic conductor dynamically provides ultrafast migration channels to promote the interfacial Na-ion transport, contributing to a reduced electro-chemical polarization and uniform Na-ion distribution. As a result, the cell displays superior rate performance and improved cycling stabilities in both half and full cells. This work proposes a new strategy for a thermodynamically and dynamically favorable nucleation and reversible plating/stripping of Na, which can be extended to other metal anodes.
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