阴极
材料科学
电池(电)
氧化还原
储能
可持续能源
工作(物理)
化学工程
扩散
降级(电信)
结构稳定性
相(物质)
纳米技术
光电子学
衍射
Crystal(编程语言)
化学物理
晶体结构
动能
阳极
工程物理
扩散阻挡层
作者
Xianjun Li,Yiming Dai,Hui Li,Qiming Zhao,Suntongxing Wang,Haonan Yang,Zhiyuan Ouyang,Ting‐Shan Chan,Chang‐Yang Kuo,C T Chen,Zhiwei Hu,Yangyang Huang,Wei Luo
出处
期刊:Small
[Wiley]
日期:2026-04-21
卷期号:22 (32): e73443-e73443
摘要
ABSTRACT The development of low‐cost and sustainable cathode materials is crucial for advancing sodium‐ion battery technology. This work proposes a new rutile‐type NaFe 2 F 6 cathode synthesized through an energy‐efficient mechanochemical method without high‐temperature processing. The rutile‐type NaFe 2 F 6 possess a unique crystal structure of edge‐sharing MF 6 octahedra, forming a 1D Na + diffusion channels with an ultralow migration barrier of 0.299 eV. In situ X‐ray diffraction analysis demonstrates its exceptional structural stability during cycling, with only a 1.94% volume variation and a single‐phase reaction mechanism without phase transitions. The NaFe 2 F 6 cathode can deliver a high reversible capacity of 181 mAh g −1 via a Fe 2+ /Fe 3+ redox couple. Comprehensive kinetic analyses confirm superior Na + transport properties compared to conventional FeF 3 . Given the earth's crust abundance of Na and Fe elements, this work establishes NaFe 2 F 6 as an environmentally sustainable and economically viable cathode material, paving the way for large‐scale energy storage applications.
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