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Rapid Na<sup>+</sup> Transport Pathway and Stable Interface Design Enabling Ultralong Life Solid‐State Sodium Metal Batteries

Chang Su, Yunpeng Qu, Naiwen Hu, Lin Wang, Zihui Song, Mengfan Pei, Runyue Mao, Xin Jin, Dongming Liu, Xigao Jian, Fangyuan Hu

2024Angewandte Chemie International Edition43 citationsDOIOpen Access PDF

Abstract

Abstract Sodium‐metal batteries (SMBs) using solid‐state polymer electrolytes (SPEs) show impressive superiority in energy density and safety. As promising candidates for SPEs, solid‐state plastic crystal electrolytes (SPCE) based on succinonitrile (SN) plastic crystal could achieve high ion conductivity and wide voltage window. Nonetheless, the notorious SN decomposition reaction on the electrode/electrolyte interface seriously challenges the stable operation of the battery. To address this drawback, we commence with the structural engineering of the polymer chain segments in SPCE and employ intermolecular interactions to optimize the composition of solid electrolyte interface (SEI). Moreover, this study emphasizes the importance of polymer network design in optimizing the migration behavior of sodium ions in SPCE. The assembled sodium symmetric cells display a high critical current density of up to 2.7 mA cm −2 and stable cycling performance for 700 hours at 0.5 mA cm −2 . Furthermore, the Na/SPCE‐9/Na 3 V 2 (PO 4 ) 3 maintains a discharge specific capacity of up to 76.8 mAh g −1 at 10 C and shows impressive long‐cycle stability, retaining 86.2 % of initial capacity over 5000 cycles with an average coulombic efficiency of 99.9 %. Our work presents a high‐performance SPCE with intrinsic safety, providing valuable insights for the future design of solid‐state SMBs.

Topics & Concepts

Interface (matter)SodiumMaterials scienceMetalSolid-stateNanotechnologyChemical engineeringEngineering physicsEngineeringMetallurgyComposite materialCapillary numberCapillary actionAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesChemical Synthesis and Characterization
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