Superlithiation Performance of Pyridinium Polymerized Ionic Liquids with Fast Li⁺ Diffusion Kinetics as Anode Materials for Lithium‐Ion Battery

Abstract: Polymerized ionic liquids (PILs) with super ion diffusion kinetics have aroused considerable attention in rechargeable batteries, which are very promising to solve the problem of the slow ion diffusion kinetics in organic electrode materials. Theoretically, PILs incorporated redox groups are very suitable as anode materials to realize “superlithiation” performance, achieving high lithium storage capacity. In this study, redox pyridinium‐based PILs (PILs‐Py‐400) have been synthesized through trimerization react… Show more

“…These cationic surfactants are believed to interact with and disrupt microbial and plant cell membranes. Structural modifications affecting lipophilicity, hydrogen bonding, and steric effects can influence selectivity between membranes and intracellular targets [17][18][19][20]. Consequently, there is a growing interest in developing environmentally-friendly agrochemicals, disinfectants, and pharmaceuticals, with rationally-designed ILs offering a sustainable approach as biodegradable active ingredients.…”

Developing New Sustainable Pyridinium Ionic Liquids: From Reactivity Studies to Mechanism-Based Activity Predictions

“…These cationic surfactants are believed to interact with and disrupt microbial and plant cell membranes. Structural modifications affecting lipophilicity, hydrogen bonding, and steric effects can influence selectivity between membranes and intracellular targets [17][18][19][20]. Consequently, there is a growing interest in developing environmentally-friendly agrochemicals, disinfectants, and pharmaceuticals, with rationally-designed ILs offering a sustainable approach as biodegradable active ingredients.…”

Developing New Sustainable Pyridinium Ionic Liquids: From Reactivity Studies to Mechanism-Based Activity Predictions

Polymeric ionic liquids: Here, there and everywhere