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Sodium‐Ion Batteries
In article number 2304046, Hong‐Yan Lü, Jin‐Zhi Guo, Xing‐Long Wu, and co‐workers introduce an anion regulation strategy for Mn‐rich phosphate cathode material (Na3.4Mn1.2Ti0.8(PO4)3), which improves the electrochemical performance and Na+ transfer, and realizes the single solid solution process of Na+ de/intercalation. This strategy provides a new method for designing high‐performance...
As a sodium superionic conductor, Mn‐rich phosphate of Na3.4Mn1.2Ti0.8(PO4)3 is considered as one of the promising cathodes for sodium‐ion batteries owing to its good thermodynamic stability and high working voltage. However, Na3.4Mn1.2Ti0.8(PO4)3 is faced with low electronic conductivity, poor cycling stability and complex phase transition caused by multi‐electron transfers, which limits its practical...
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