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Dynamic Migration‐Pulling Polymer Electrolyte Design Strategy for Low‐Temperature Lithium–Sulfur Batteries

Wenkai Song, Borui Li, Yunpeng Qu, Wanyuan Jiang, Mengfan Pei, Naiwen Hu, Shuo Zhuo, Chang Su, Xin Jin, Runyue Mao, Dongming Liu, Xigao Jian, Fangyuan Hu

2025Angewandte Chemie International Edition27 citationsDOIOpen Access PDF

Abstract

Abstract Quasi‐solid‐state lithium–sulfur batteries exhibit significant promise as safe, high‐energy electrochemical storage technology, yet their performance remains constrained by polysulfide accumulation and exacerbated shuttle effects due to sluggish redox kinetics and inefficient charge transport. Here, a dynamic migration‐pulling strategy is proposed to accelerate polysulfide redox kinetics by dynamically restructuring the solvated structure of Li + , which is validated on a GPE incorporating boronic ester dynamic covalent bonds and polar side chains (BE‐GPE). Theoretical calculations and experiments revealed that the desolvation barrier for Li + is significantly reduced, while the ligand groups were pulled out from the solvated shell assisted by the migration of dynamic covalent bonds. Rapid charge transfer kinetics are attainable via designed electrolyte. Consequently, BE‐GPE based lithium–sulfur batteries delivered high reversible capacity of 1446 mAh g −1 at 0.1 C and long‐term cycling stability with an average capacity decay of 0.04% during 1000 cycles at 0.5 C. The initial capacity at 0.5 C is up to 920 mAh g −1 and remains stable for 200 cycles at 0 °C. Successfully realized the energy storage of quasi‐solid‐state Li–S batteries under low‐temperature conditions.

Topics & Concepts

PolysulfideElectrolyteLithium (medication)RedoxKineticsElectrochemistryCovalent bondChemical engineeringChemistryPolymerEnergy storageSulfurMaterials scienceBattery (electricity)Electrochemical kineticsElectrodeInorganic chemistryOrganic chemistryThermodynamicsPhysical chemistryPhysicsEngineeringQuantum mechanicsEndocrinologyPower (physics)MedicineAdvanced Battery Materials and TechnologiesPolyoxometalates: Synthesis and ApplicationsFlame retardant materials and properties
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