In-Built Curable High-Salt-Concentrated Elastomeric Polymer Electrolytes for Integrated All-Solid-State Lithium Batteries and Ion Conduction

You, Donglei; Farooq, Muhammad Amjad; Lai, Ziwei; Wei, Wei; Xiong, Huiming

doi:10.1021/acs.macromol.4c00132

Macromolecules

2024

DOI: 10.1021/acs.macromol.4c00132

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In-Built Curable High-Salt-Concentrated Elastomeric Polymer Electrolytes for Integrated All-Solid-State Lithium Batteries and Ion Conduction

Donglei You,

Muhammad Amjad Farooq,

Ziwei Lai

et al.

Abstract: The elastomeric polymer-in-salt electrolytes (PISEs) comprising a polyether backbone and pendant cyclic carbonates have been developed through a mild and clean carbonate−amine reaction. The pendant cyclic carbonate moieties, analogous to the classic carbonate liquid electrolytes, can host lithium salts to a high concentration on the one hand; on the other hand, they can function as reactive sites toward diamine cross-linkers. This simple and efficient approach, free of extra additives and residuals, facilitate… Show more

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Cited by 2 publications

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High‐Voltage All‐Solid‐State Lithium Metal Batteries Enabled by Localized High‐Salt‐Concentration In‐Chain Clustering Copolymer Electrolytes

You,

Lai,

Wei

et al. 2024

Adv Funct Materials

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All‐solid‐state polymer electrolyte‐based rechargeable batteries paired with high‐voltage cathodes and lithium anodes hold promising prospects to increase the energy density and the safety of lithium metal batteries (LMBs). To improve the stability of the polymer electrolytes at both the positive and negative electrodes, fluorinated polymer electrolytes have been designed and synthesized by copolymerization of epoxide monomers containing cyclic carbonates and fluorinated moieties. The cyclic carbonates possessing a large dielectric constant endow the polymer electrolytes with a high salt solubility. While, the introduction of the fluorinated moieties gives rise to an enhanced oxidation resistance of the electrolytes particularly in the cathode on one hand; on the other hand, it results in in‐chain micelle‐like clusters on the scale of a few nanometers due to the superior hydrophobicity, hence promoting the formation of localized high‐concentration polymer‐in‐salt electrolytes (PISEs) with a high lithium‐ion conductivity and transference number. This synergistic strategy enables a large lithium‐ion transference number of ∼0.72, a wide electrochemical stability window up to 5.2 V, and stable electrode/electrolyte interfaces. The Li/PISE/Li cells demonstrate stable cycling over 1500 h, and the all‐solid‐state NCM811/PISE/Li batteries exhibit a superior discharge capacity and prolonged cycling stability (∼98% capacity retention at 500 cycles) at 30 °C.

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High‐Voltage All‐Solid‐State Lithium Metal Batteries Enabled by Localized High‐Salt‐Concentration In‐Chain Clustering Copolymer Electrolytes

You,

Lai,

Wei

et al. 2024

Adv Funct Materials

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Conformation-assisted solid-solid phase transition of LiTFSI electrolyte salt and the lithium ion coordination

Lai,

You,

Wei

et al. 2024

Giant

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In-Built Curable High-Salt-Concentrated Elastomeric Polymer Electrolytes for Integrated All-Solid-State Lithium Batteries and Ion Conduction

Cited by 2 publications

References 69 publications

High‐Voltage All‐Solid‐State Lithium Metal Batteries Enabled by Localized High‐Salt‐Concentration In‐Chain Clustering Copolymer Electrolytes

High‐Voltage All‐Solid‐State Lithium Metal Batteries Enabled by Localized High‐Salt‐Concentration In‐Chain Clustering Copolymer Electrolytes

Conformation-assisted solid-solid phase transition of LiTFSI electrolyte salt and the lithium ion coordination

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