面向高电压长寿命钠离子全电池的醚基电解质化学

Ether-Based Electrolyte Chemistry Towards High-Voltage and Long-Life Na-Ion Full Batteries.

作者信息

Liang Hao-Jie, Gu Zhen-Yi, Zhao Xin-Xin, Guo Jin-Zhi, Yang Jia-Lin, Li Wen-Hao, Li Bao, Liu Zhi-Ming, Li Wen-Liang, Wu Xing-Long

机构信息

MOE Key Laboratory for UV Light-Emitting Materials and Technology, Northeast Normal University, Changchun, Jilin, 130024, P. R. China.

Department of Chemistry, Northeast Normal University, Changchun, Jilin, 130024, P. R. China.

出版信息

Angew Chem Int Ed Engl. 2021 Dec 13;60(51):26837-26846. doi: 10.1002/anie.202112550. Epub 2021 Nov 15.

DOI:10.1002/anie.202112550

PMID:34636126

Abstract

Although ether-based electrolytes have been extensively applied in anode evaluation of batteries, anodic instability arising from solvent oxidability is always a tremendous obstacle to matching with high-voltage cathodes. Herein, by rational design for solvation configuration, the fully coordinated ether-based electrolyte with strong resistance against oxidation is reported, which remains anodically stable with high-voltage Na V (PO ) O F (NVPF) cathode under 4.5 V (versus Na /Na) protected by an effective interphase. The assembled graphite//NVPF full cells display superior rate performance and unprecedented cycling stability. Beyond that, the constructed full cells coupling the high-voltage NVPF cathode with hard carbon anode exhibit outstanding electrochemical performances in terms of high average output voltage up to 3.72 V, long-term cycle life (such as 95 % capacity retention after 700 cycles) and high energy density (247 Wh kg ). In short, the optimized ether-based electrolyte enriches systematic options, the ability to maintain oxidative stability and compatibility with various anodes, exhibiting attractive prospects for application.

摘要

尽管醚基电解质已广泛应用于电池的阳极评估，但由溶剂氧化性引起的阳极不稳定性始终是与高压阴极匹配的巨大障碍。在此，通过对溶剂化构型的合理设计，报道了具有强抗氧化性的完全配位醚基电解质，在4.5 V（相对于Na⁺/Na）下，在有效界面的保护下，与高压NaV(PO₄)₂O₂F（NVPF）阴极保持阳极稳定。组装的石墨//NVPF全电池表现出优异的倍率性能和前所未有的循环稳定性。除此之外，构建的将高压NVPF阴极与硬碳阳极耦合的全电池在高达3.72 V的高平均输出电压、长期循环寿命（如700次循环后容量保持率95%）和高能量密度（247 Wh kg⁻¹）方面表现出出色的电化学性能。简而言之，优化后的醚基电解质丰富了系统选择，具备维持氧化稳定性和与各种阳极兼容性的能力，展现出诱人的应用前景。

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面向高电压长寿命钠离子全电池的醚基电解质化学

Ether-Based Electrolyte Chemistry Towards High-Voltage and Long-Life Na-Ion Full Batteries.

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