Understanding Polymerized Ionic Liquids as Solid Polymer Electrolytes for Sodium Batteries

离子电导率 电解质 化学 离子液体 化学工程 差示扫描量热法 三元运算 聚合物 电化学 电导率 高分子化学 物理化学 有机化学 电极 热力学 物理 计算机科学 工程类 程序设计语言 催化作用
作者
Faezeh Makhlooghiazad,Luis Miguel Guerrero Mejía,Greg Rollo-Walker,Dani Kourati,Montserrat Galcerán,Fangfang Chen,Michaël Deschamps,Patrick C. Howlett,Luke A. O’Dell,Maria Forsyth
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:146 (3): 1992-2004 被引量:63
标识
DOI:10.1021/jacs.3c10510
摘要

Solid polymer electrolytes (SPEs) have emerged as promising candidates for sodium-based batteries due to their cost-effectiveness and excellent flexibility. However, achieving high ionic conductivity and desirable mechanical properties in SPEs remains a challenge. In this study, we investigated an AB diblock copolymer, PS-PEA(BuImTFSI), as a potential SPE for sodium batteries. We explored binary and ternary electrolyte systems by combining the polymer with salt and [C3mpyr][FSI] ionic liquid (IL) and analyzed their thermal and electrochemical properties. Differential scanning calorimetry revealed phase separation in the polymer systems. The addition of salt exhibited a plasticizing effect localized to the polyionic liquid (PIL) phase, resulting in an increased ionic conductivity in the binary electrolytes. Introducing the IL further enhanced the plasticizing effect, elevating the ionic conductivity in the ternary system. Spectroscopic analysis, for the first time, revealed that the incorporation of NaFSI and IL influences the conformation of TFSI- and weakens the interaction between TFSI- and the polymer. This establishes correlations between anions and Na+, ultimately enhancing the diffusivity of Na ions. The electrochemical properties of an optimized SPE in Na/Na symmetrical cells were investigated, showcasing stable Na plating/stripping at high current densities up to 0.7 mA cm-2, maintaining its integrity at 70 °C. Furthermore, we evaluated the performance of a Na|NaFePO4 cell cycled at different rates (C/10 and C/5) and temperatures (50 and 70 °C), revealing remarkable high-capacity retention and Coulombic efficiency. This study highlights the potential of solvent-free diblock copolymer electrolytes for high-performance sodium-based energy storage systems, contributing to advanced electrolyte materials.
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