Emerging applications of tough ionogels
Ionogels are crosslinked networks—typically polymeric networks—swollen with ionic liquids. The unique properties of ionogels, such as nonvolatility, ionic conductivity, nonflammability, and high thermal and electrochemical stability, make them promising for a variety of applications. Examples includ...
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Published in | NPG Asia materials Vol. 15; no. 1; pp. 66 - 9 |
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Main Authors | , , |
Format | Journal Article |
Language | English |
Published |
Tokyo
Springer Japan
15.12.2023
Nature Publishing Group Nature Portfolio |
Subjects | |
Online Access | Get full text |
ISSN | 1884-4057 1884-4049 1884-4057 |
DOI | 10.1038/s41427-023-00514-8 |
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Abstract | Ionogels are crosslinked networks—typically polymeric networks—swollen with ionic liquids. The unique properties of ionogels, such as nonvolatility, ionic conductivity, nonflammability, and high thermal and electrochemical stability, make them promising for a variety of applications. Examples include sensors, adhesives, energy storage devices, and ionotronics. While many ionogels require complex syntheses and suffer from poor mechanical properties, simpler strategies are emerging to produce tough ionogels, thereby improving the durability, enabling 3D printing, and broadening the application space of ionogels. This perspective highlights promising applications and future opportunities of ionogels.
This perspective highlights recent applications of ionogels that take advantage of their ionic conductivity, nonvolatility, and high thermal and electrochemical stability. Examples include sensors, batteries, electronics, 3D printing, and adhesives. Improving the mechanical properties of ionogels broadens the application space; thus, simple strategies to achieve tough ionogels are introduced. Finally, the potential applications and future opportunities of ionogels are discussed. |
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AbstractList | Abstract Ionogels are crosslinked networks—typically polymeric networks—swollen with ionic liquids. The unique properties of ionogels, such as nonvolatility, ionic conductivity, nonflammability, and high thermal and electrochemical stability, make them promising for a variety of applications. Examples include sensors, adhesives, energy storage devices, and ionotronics. While many ionogels require complex syntheses and suffer from poor mechanical properties, simpler strategies are emerging to produce tough ionogels, thereby improving the durability, enabling 3D printing, and broadening the application space of ionogels. This perspective highlights promising applications and future opportunities of ionogels. Ionogels are crosslinked networks—typically polymeric networks—swollen with ionic liquids. The unique properties of ionogels, such as nonvolatility, ionic conductivity, nonflammability, and high thermal and electrochemical stability, make them promising for a variety of applications. Examples include sensors, adhesives, energy storage devices, and ionotronics. While many ionogels require complex syntheses and suffer from poor mechanical properties, simpler strategies are emerging to produce tough ionogels, thereby improving the durability, enabling 3D printing, and broadening the application space of ionogels. This perspective highlights promising applications and future opportunities of ionogels.This perspective highlights recent applications of ionogels that take advantage of their ionic conductivity, nonvolatility, and high thermal and electrochemical stability. Examples include sensors, batteries, electronics, 3D printing, and adhesives. Improving the mechanical properties of ionogels broadens the application space; thus, simple strategies to achieve tough ionogels are introduced. Finally, the potential applications and future opportunities of ionogels are discussed. Ionogels are crosslinked networks—typically polymeric networks—swollen with ionic liquids. The unique properties of ionogels, such as nonvolatility, ionic conductivity, nonflammability, and high thermal and electrochemical stability, make them promising for a variety of applications. Examples include sensors, adhesives, energy storage devices, and ionotronics. While many ionogels require complex syntheses and suffer from poor mechanical properties, simpler strategies are emerging to produce tough ionogels, thereby improving the durability, enabling 3D printing, and broadening the application space of ionogels. This perspective highlights promising applications and future opportunities of ionogels. Ionogels are crosslinked networks—typically polymeric networks—swollen with ionic liquids. The unique properties of ionogels, such as nonvolatility, ionic conductivity, nonflammability, and high thermal and electrochemical stability, make them promising for a variety of applications. Examples include sensors, adhesives, energy storage devices, and ionotronics. While many ionogels require complex syntheses and suffer from poor mechanical properties, simpler strategies are emerging to produce tough ionogels, thereby improving the durability, enabling 3D printing, and broadening the application space of ionogels. This perspective highlights promising applications and future opportunities of ionogels. This perspective highlights recent applications of ionogels that take advantage of their ionic conductivity, nonvolatility, and high thermal and electrochemical stability. Examples include sensors, batteries, electronics, 3D printing, and adhesives. Improving the mechanical properties of ionogels broadens the application space; thus, simple strategies to achieve tough ionogels are introduced. Finally, the potential applications and future opportunities of ionogels are discussed. |
ArticleNumber | 66 |
Author | Hu, Jian Wang, Meixiang Dickey, Michael D. |
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Snippet | Ionogels are crosslinked networks—typically polymeric networks—swollen with ionic liquids. The unique properties of ionogels, such as nonvolatility, ionic... Abstract Ionogels are crosslinked networks—typically polymeric networks—swollen with ionic liquids. The unique properties of ionogels, such as nonvolatility,... |
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SubjectTerms | 639/166/898 639/301/923/1027 Adhesives Biomaterials Chemical bonds Chemical sensors Chemistry and Materials Science Conductivity Energy storage Energy Systems Hydrogels Ion currents Ionic liquids Materials Science Mechanical properties Optical and Electronic Materials Perspective Sensors Solvents Stability Structural Materials Surface and Interface Science Thin Films Three dimensional printing |
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Title | Emerging applications of tough ionogels |
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