Poly(Ionic Liquid) Electrolytes at an Extreme Salt Concentration for Solid-State Batteries

Poly(Ionic Liquid) Electrolytes at an Extreme Salt Concentration for Solid-State Batteries

Polymer-in-salt electrolytes were introduced three decades ago as an innovative solution to the challenge of low Li-ion conductivity in solvent-free solid polymer electrolytes. Despite significant progress, the approach still faces considerable challenges, ranging from a fundamental understanding to...

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Veröffentlicht in:Journal of the American Chemical Society 2024-12, Vol.146 (48), p.33169-33178
Hauptverfasser: Kondou, Shinji, Abdullah, Mohanad, Popov, Ivan, Martins, Murillo L., O’Dell, Luke A., Ueda, Hiroyuki, Makhlooghiazad, Faezeh, Nakanishi, Azusa, Sudoh, Taku, Ueno, Kazuhide, Watanabe, Masayoshi, Howlett, Patrick, Zhang, Heng, Armand, Michel, Sokolov, Alexei P., Forsyth, Maria, Chen, Fangfang
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container_end_page 33178
container_issue 48
container_start_page 33169
container_title Journal of the American Chemical Society
container_volume 146
creator Kondou, Shinji
Abdullah, Mohanad
Popov, Ivan
Martins, Murillo L.
O’Dell, Luke A.
Ueda, Hiroyuki
Makhlooghiazad, Faezeh
Nakanishi, Azusa
Sudoh, Taku
Ueno, Kazuhide
Watanabe, Masayoshi
Howlett, Patrick
Zhang, Heng
Armand, Michel
Sokolov, Alexei P.
Forsyth, Maria
Chen, Fangfang
description Polymer-in-salt electrolytes were introduced three decades ago as an innovative solution to the challenge of low Li-ion conductivity in solvent-free solid polymer electrolytes. Despite significant progress, the approach still faces considerable challenges, ranging from a fundamental understanding to the development of suitable polymers and salts. A critical issue is maintaining both the stability and high conductivity of molten salts within a polymer matrix, which has constrained their further exploration. This research offers a promising solution by integrating cationic poly­(ionic liquids) (polyIL) with a crystallization-resistive salt consisting of asymmetric anions. A stable polymer-in-salt electrolyte with an exceptionally high Li-salt content of up to 90 mol % was achieved, providing a valuable opportunity for the in-depth understanding of these electrolytes at an extremely high salt concentration. This work explicates how increased salt concentration affects coordination structures, glass transitions, ionic conductivity, and the decoupling and coupling of ion transport from structural dynamics in a polymer electrolyte, ultimately enhancing electrolyte performance. These findings provide significant knowledge advancement in the field, guiding the future design of polymer-in-salt electrolytes.
doi_str_mv 10.1021/jacs.4c12616
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title Poly(Ionic Liquid) Electrolytes at an Extreme Salt Concentration for Solid-State Batteries
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