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Nature-Inspired Separator with Thermal Sealing Reinforcement toward Sustainable Sodium-Ion Batteries

Jialin Yang, Xinxin Zhao, Han‐Hao Liu, Junming Cao, Haojie Liang, Yanping Zheng, Yue Liu, Kai-Yang Zhang, Miao Du, Jin‐Zhi Guo, Jingping Zhang, Xing‐Long Wu

2025ACS Nano8 citationsDOI

Abstract

Sustainability serves as a predominant obstacle for advanced energy storage. Herein, we proposed biomass-based separator materials, with favorable flame retardancy, cost-effectiveness, potential sustainability, and excellent electrochemical performance. Specifically, the engineered hydroxyapatite (HAP) molecule incorporates solvent-friendly groups to establish enhanced ion transport channels. The resulting CF@HAP separator induces an orderly decomposition of the electrolyte, which could optimize the electrode/electrolyte interface layer and prevent dendrite growth, making the durable cycling process, let alone its great mechanical properties and potential versatility. The in-depth study clarifies its complicated interfacial chemistry, flame retardancy, and thermal control mechanisms, thus achieving a "thermally closed pore" behavior during the temperature regulation process. Furthermore, the CF@HAP separator achieves complete degradation in the soil naturally within 30 days. As-designed biomass-based separators could comprehensively improve electrochemical performance toward higher levels of reactivity, stability, and postlife self-degradability, further underscoring the promising prospects for sustainable energy storage systems.

Topics & Concepts

Separator (oil production)Materials scienceReinforcementIonSodiumThermalSustainable energyChemical engineeringNanotechnologyComposite materialEngineeringChemistryMetallurgyElectrical engineeringOrganic chemistryThermodynamicsRenewable energyPhysicsAdvancements in Battery MaterialsExtraction and Separation ProcessesAdvanced Battery Materials and Technologies
Nature-Inspired Separator with Thermal Sealing Reinforcement toward Sustainable Sodium-Ion Batteries | Litcius