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Out-Of-Plane Symmetry Design Arrests Structural Evolution in Layered-Type Framework for Sustainable Sodium Shuttling

Qiaochu Ren, Yi Pei, yuxuan Xiang, Yanyi Liu, Honglei Jiang, Xumiao Chen, Hai Hu, Zhifeng Huang, Yongjin Fang, Li Liu, Lifang Jiao

2026Journal of the American Chemical Society5 citationsDOI

Abstract

Sodium-ion batteries (SIBs) offer a compelling and sustainable solution to the challenges of the energy transition and lithium resource scarcity. However, the crystallographic diversity in sodium transition metal oxides (Na x TM y O 2 ) induces symmetry reconfigurations during de/sodiation, posing a formidable challenge to the stable operation of SIBs. Here, we elucidate the critical yet underexplored role of out-of-plane symmetry in mitigating structural evolution in Na x TM y O 2 . By engineering a monoclinic distortion, we establish a distinctive out-of-plane symmetry enabling the coexistence of P- and O-type interstitial sites for Na ions, effectively preventing interlayer oxygen ion slipping and subsequent symmetry evolution, even in deeply desodiated states (with <0.2 Na + per formula remaining). This symmetry engineering fundamentally addresses the intrinsic phase instability in P3-type cathodes and eliminates cumulative voltage hysteresis arising from irreversible structural evolution (average hysteresis of 0.16 V over 100 cycles), achieving stable cycling under high-energy-density operation (437.1 Wh kg –1 ).

Topics & Concepts

ChemistrySymmetry (geometry)SodiumChemical physicsNanotechnologyStatistical physicsTheoretical physicsBiochemical engineeringSymmetry breakingThermodynamicsStructural Analysis and OptimizationCellular and Composite StructuresStructural Load-Bearing Analysis