Aliovalent Substitution of Al3+ in Li2zrcl6 Solid Electrolyte Towards Large-Scale Application

替代(逻辑) 电解质 比例(比率) 材料科学 化学 物理化学 计算机科学 物理 电极 量子力学 程序设计语言
作者
Kang-Ning Gao,Fan Bai,Zhuang Sun,Tao Zhang
标识
DOI:10.2139/ssrn.4724295
摘要

Halide solid electrolytes, known for their stability to 4 V-class cathodes and deformability, emerge as promising candidates for high-performance all-solid-state batteries. Unfortunately, their synthesis often involves expensive elements, limiting mass production and cost-effectiveness. In this study, aliovalent-substituted Li2ZrCl6 with Al3+ is fabricated by one-step ball milling, exhibiting lower cost, higher ionic conductivity and a widened electrochemical window. The cost is reduced by approximately 13.4% through a 25% aliovalent substitution. Li+ conductivity of Li2+xZr1-xAlxCl6 increases from 0.12 mS/cm (x = 0) to a peak of 1.13 mS/cm (x = 0.25) at 25 °C, and activation energy (Ea) reduces from 0.43 eV to 0.29 eV, which is attributed to the extension of Li+ migration pathways along intra- and inter- ab-plane around Al sites as revealed by AIMD calculations. Both experimental and DFT calculation results indicate that the substitution of Al3+ improves the oxidation potential from 4.1 V in Li2ZrCl6 to 4.3 V in Li2.25Zr0.75Al0.25Cl6. Furthermore, the excellent electrochemical performances of all-solid-state batteries are demonstrated using Al-substituted Li2ZrCl6 and commercial LiNi0.8Co0.1Mn0.1O2. The unravelled multifaceted effects of Al3+ aliovalent substitution in Li2ZrCl6 solid electrolyte make it highly advantageous for future applications in halide-based all-solid-state lithium batteries.
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