The Novel Ionic Liquid and Its Related Self‐Assembly in the Areas of Energy Storage and Conversion

Abstract: ILs unique properties such as ionic conductivity, low volatility, noninflammability, high chemical and electrochemical stability, and so on. [3] These properties coupled with adjustable structure and functionality allow ILs to evolve from unique liquid mediums to the solvents/electrolytes widely used across multiple disciplines in science and engineering. [4][5][6][7][8][9] The incorporation of ILs and advanced energy storage and conversion technology seems to be a nice strategy to meet the increasing demand f… Show more

“…The progress of the emergence and use of new ILs for energy storage and conversion was noted in a brief review. 47 The following were considered as new ILs:…”

“…The work cites numerous examples and concludes that, given their unique physical and chemical properties, electrochemical behavior, and self-assembled structures, the new ILs have become promising materials for various applications, particularly energy storage and conversion. 47…”

Advanced research and prospects on polymer ionic liquids: trends, potential and application

“…The progress of the emergence and use of new ILs for energy storage and conversion was noted in a brief review. 47 The following were considered as new ILs:…”

“…The work cites numerous examples and concludes that, given their unique physical and chemical properties, electrochemical behavior, and self-assembled structures, the new ILs have become promising materials for various applications, particularly energy storage and conversion. 47…”

Advanced research and prospects on polymer ionic liquids: trends, potential and application

“…Redox-active ionic liquids are attracting increasing attention in the scientific literature (Figure 1) due to their potential utility as energy harvesting and storage materials. [1][2][3] In particular, they possess a number of characteristics that make them ideal redox flow battery electrolytes: high concentrations of redox-active species and charge carriers, tunable redox potentials, low vapour pressures, and excellent thermal and chemical stabilities. [1,4,5] However, their practical utility is hampered by low ionic conductivities and the high cost of preparing bulk quantities of custom-designed, redox-functionalised ionic liquids.…”

“…[1,4,5] However, their practical utility is hampered by low ionic conductivities and the high cost of preparing bulk quantities of custom-designed, redox-functionalised ionic liquids. [1,3] For a comprehensive overview of the properties of aprotic redox-active ionic liquids and their potential applications in redox flow batteries, the interested reader is referred to a recent series of review articles and the references contained within. [1,3,5,6] Protic ionic liquids are formed by simple acid-base reactions, typically involving proton transfer from a Brønsted-Lowry acid to a Brønsted-Lowry base.…”

“…[1,3] For a comprehensive overview of the properties of aprotic redox-active ionic liquids and their potential applications in redox flow batteries, the interested reader is referred to a recent series of review articles and the references contained within. [1,3,5,6] Protic ionic liquids are formed by simple acid-base reactions, typically involving proton transfer from a Brønsted-Lowry acid to a Brønsted-Lowry base. [7,8] They often display higher conductivities than their aprotic counterparts, due in part to the existence of a Grotthuss-like proton transfer mechanism.…”

Acid‐Base Chemistry Provides a Simple and Cost‐Effective Route to New Redox‐Active Ionic Liquids

Polymeric ionic liquids: Here, there and everywhere