ZnO Quantum Dots as PEO-Based Solid Electrolytes Fillers for Lithium Metal Batteries.

IF 7.5 2区化学 Q1 CHEMISTRY, MULTIDISCIPLINARY

ChemSusChem Pub Date : 2024-11-14 DOI:10.1002/cssc.202401860

Shiyan Deng, Huiyao Li, Wenhao Tang, Youlan Zou, Shuang Deng

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Abstract

PEO-based solid polymer electrolyte (PEO SPE) is regarded as one of the most promising solid electrolytes due to its exceptional flexibility, cost-effectiveness, and ease of integration. However, its commercialization is hindered by inadequate ionic conductivity and unstable interface. By incorporating proper ZnO quantum-dots (QDs) fillers with enhanced surface activity, the ion transport inner the PEO-based electrolyte can be improved along with enhanced REDOX kinetics at the Li/PEO interface. The ionic conductivity reaches 5.97×10^-4 S cm^-1 at 60 °C. Moreover, ZnO QDs exhibit a quantum size effect and possess lithiophilic characteristics that promote uniform nucleation and redeposition of Li⁺ while forming a stable Li-Zn alloy. This inhibits lithium dendrite formation and enhances the stability of Li anode. Li//Li cell with 3 % ZnO QDs works steadily for more than 2100 h at 60 °C with 0.1 mA cm^-2. The assembled Li//LiFePO₄ cell provides a reversible capacity of 134.91 mAh g^-1 after200 cycles at 0.1 C.

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氧化锌量子点作为锂金属电池的聚醚砜基固体电解质填料。

基于 PEO 的固体聚合物电解质（PEO SPE）因其卓越的灵活性、成本效益和易于集成性而被视为最有前途的固体电解质之一。然而，离子导电性不足和界面不稳定阻碍了它的商业化。通过加入具有增强表面活性的适当氧化锌量子点（QDs）填料，可以改善基于 PEO 的电解质内部的离子传输，同时增强 Li/PEO 界面的 REDOX 动力学。在 60 °C 时，离子电导率达到 5.97×10-4 S cm-1。此外，ZnO QDs 具有量子尺寸效应和亲锂特性，可促进 Li+ 的均匀成核和再沉积，同时形成稳定的锂锌合金。这抑制了锂枝晶的形成，增强了锂阳极的稳定性。含有 3% ZnO QDs 的锂//锂电池在 60 °C 条件下以 0.1 mA cm-2 稳定工作了 2100 多小时。组装好的锂//LiFePO4 电池在 0.1 ℃ 下循环 200 次后，可提供 134.91 mAh g-1 的可逆容量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

ChemSusChem 化学-化学综合

CiteScore

15.80

自引率

4.80%

发文量

555

审稿时长

1.8 months

期刊介绍： ChemSusChem Impact Factor (2016): 7.226 Scope: Interdisciplinary journal Focuses on research at the interface of chemistry and sustainability Features the best research on sustainability and energy Areas Covered: Chemistry Materials Science Chemical Engineering Biotechnology