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Gu ZhenYi | Zendy; Guo JinZhi | Zendy; Zhao XinXin | Zendy; Wang XiaoTong | Zendy; Xie Dan | Zendy; Sun ZhongHui | Zendy; Zhao ChenDe | Zendy; Liang HaoJie | Zendy; Li WenHao | Zendy; Wu XingLong | Zendy

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Author(s) -

Gu ZhenYi,

Guo JinZhi,

Zhao XinXin,

Wang XiaoTong,

Xie Dan,

Sun ZhongHui,

Zhao ChenDe,

Liang HaoJie,

Li WenHao,

Wu XingLong

Publication year - 2021

Publication title -

infomat

Language(s) - English

Resource type - Reports

ISSN - 2567-3165

DOI - 10.1002/inf2.12212

Subject(s) - cathode , electrochemistry , ion , conductivity , materials science , kinetics , cover (algebra) , electron , chemical engineering , inorganic chemistry , chemistry , electrode , physics , quantum mechanics , engineering , mechanical engineering , organic chemistry

Phosphate cathodes of sodium‐ion batteries usually exhibit low conductivity, seriously hinders their electrochemical properties. The authors (DOI: 10.1002/inf2.12184 ) of this manuscript regulate the fluorophosphate lattice with increased ionicity via aliovalent substitution, achieving the higher structural stability, improved electron/ion‐transport kinetics, and superior energy‐storage performances in advanced Na 3.14 V 1.93 Na 0.07 (PO 4 ) 2 F 3 cathode.

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