Solvation Regulation Reinforces Anion‐Derived Inorganic‐Rich Interphase for High‐Performance Quasi‐Solid‐State Li Metal Batteries

Xu, Pan; Gao, Yu‐Chen; Huang, Yu‐Xin; Shuang, Zong‐Yao; Kong, Wei‐Jing; Huang, Xue‐Yan; Huang, Wen‐Ze; Yao, Nan; Chen, Xiang; Yuan, Hong; Zhao, Chen‐Zi; Huang, Jia‐Qi; Zhang, Qiang

doi:10.1002/adma.202409489

Advanced Materials

2024

DOI: 10.1002/adma.202409489

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Solvation Regulation Reinforces Anion‐Derived Inorganic‐Rich Interphase for High‐Performance Quasi‐Solid‐State Li Metal Batteries

Pan Xu,

Yu‐Chen Gao,

Yu‐Xin Huang

et al.

Abstract: Solid‐state polymer lithium metal batteries are an important strategy for achieving high safety and high energy density. However, the issue of Li dendrites and inherent inferior interface greatly restricts practical application. Herein, this study introduces tris(2,2,2‐trifluoroethyl)phosphate solvent with moderate solvation ability, which can not only complex with Li+ to promote the in‐situ ring‐opening polymerization of 1,3‐dioxolane (DOL), but also build solvated structure models to explore the effect of di… Show more

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Cited by 3 publications

References 62 publications

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Decoupling Interfacial Stability and Ion Transport in Solid Polymer Electrolyte by Tailored Ligand Chemistry for Lithium Metal Battery

Lin,

Jin,

et al. 2024

Adv Funct Materials

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Achieving fast ion transport kinetics and high interfacial stability simultaneously is challenging for polymer electrolytes in solid‐state lithium batteries, as the coordination environment optimal for Li+ conduction struggles to generate desirable interphase chemistry. Herein, the adjustable property of organic ligands is exploited in metal–organic frameworks (MOFs) to develop a hierarchical composite electrolyte, incorporating heterogeneous and spatially confined MOF nanofillers into a poly‐1,3‐dioxolane matrix. The defect‐engineered University of Oslo‐66 MOFs (UiO‐66d) with tailored Lewis acidity can separate ion pairs and optimize Li+ migration through weakened solvation effects, thereby enhancing ion conductivity by over sixfold (0.85 mS cm−1@25 °C). At the lithium anode side, a densified University of Oslo‐67 MOFs (UiO‐67) layer with conjugated π electrons facilitates anion participation in the solvation sheath, promoting anion reduction and thereby forming LiF/Li3N‐dominated solid electrolyte interphase for isotropic Li deposition. The as‐assembled Li||LiFePO4 full cell delivers superior cycling stability with 92.7% of capacity retained over 2000 cycles at 2 C. Notably, the developed electrolyte demonstrates excellent compatibility with high‐voltage cathodes, achieving 80% capacity retention with LiNi0.5Co0.2Mn0.3O2 over 630 cycles. This work provides valuable insights into decoupling transport and interfacial challenges in solid‐state lithium batteries, paving the way for advanced battery technologies.

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Decoupling Interfacial Stability and Ion Transport in Solid Polymer Electrolyte by Tailored Ligand Chemistry for Lithium Metal Battery

Lin,

Jin,

et al. 2024

Adv Funct Materials

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show abstract

Oxygen-reduced surface-terminated MXenes as cathodes for enhanced reversible Li–CO2 batteries

Liu,

Lai,

Cao

et al. 2024

Carbon

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Functionalized fillers as “ions relay stations” enabling Li+ ordered transport in quasi-solid electrolytes for high-stability lithium metal batteries

Du,

Sun,

Xuan

2025

Journal of Energy Chemistry

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Solvation Regulation Reinforces Anion‐Derived Inorganic‐Rich Interphase for High‐Performance Quasi‐Solid‐State Li Metal Batteries

Cited by 3 publications

References 62 publications

Decoupling Interfacial Stability and Ion Transport in Solid Polymer Electrolyte by Tailored Ligand Chemistry for Lithium Metal Battery

Decoupling Interfacial Stability and Ion Transport in Solid Polymer Electrolyte by Tailored Ligand Chemistry for Lithium Metal Battery

Oxygen-reduced surface-terminated MXenes as cathodes for enhanced reversible Li–CO2 batteries

Functionalized fillers as “ions relay stations” enabling Li+ ordered transport in quasi-solid electrolytes for high-stability lithium metal batteries

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