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Entropy and crystal-facet modulation of P2-type layered cathodes for long-lasting sodium-based batteries

Fang Fu, Xiang Liu, Xiaoguang Fu, Hongwei Chen, Ling Huang, Jingjing Fan, Jiabo Le, Qiuxiang Wang, Weihua Yang, Yang Ren, Khalil Amine, Shi‐Gang Sun, Gui‐Liang Xu

2022Nature Communications267 citationsDOIOpen Access PDF

Abstract

Abstract P2-type sodium manganese-rich layered oxides are promising cathode candidates for sodium-based batteries because of their appealing cost-effective and capacity features. However, the structural distortion and cationic rearrangement induced by irreversible phase transition and anionic redox reaction at high cell voltage (i.e., >4.0 V) cause sluggish Na-ion kinetics and severe capacity decay. To circumvent these issues, here, we report a strategy to develop P2-type layered cathodes via configurational entropy and ion-diffusion structural tuning. In situ synchrotron X-ray diffraction combined with electrochemical kinetic tests and microstructural characterizations reveal that the entropy-tuned Na 0.62 Mn 0.67 Ni 0.23 Cu 0.05 Mg 0.07 Ti 0.01 O 2 (CuMgTi-571) cathode possesses more {010} active facet, improved structural and thermal stability and faster anionic redox kinetics compared to Na 0.62 Mn 0.67 Ni 0.37 O 2 . When tested in combination with a Na metal anode and a non-aqueous NaClO 4 -based electrolyte solution in coin cell configuration, the CuMgTi-571-based positive electrode enables an 87% capacity retention after 500 cycles at 120 mA g −1 and about 75% capacity retention after 2000 cycles at 1.2 A g −1 .

Topics & Concepts

CathodeElectrochemistryMaterials scienceRedoxAnodeElectrolyteElectrochemical kineticsKineticsAqueous solutionCapacity lossChemical engineeringElectrodeChemistryPhysical chemistryMetallurgyPhysicsQuantum mechanicsEngineeringAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesDielectric properties of ceramics
Entropy and crystal-facet modulation of P2-type layered cathodes for long-lasting sodium-based batteries | Litcius