A Highly Damping, Crack‐Insensitive and Self‐Healable Binder for Lithium‐Sulfur Battery by Tailoring the Viscoelastic Behavior

Abstract: Binder plays an important role in maintaining the integrity of sulfur electrode in lithium‐sulfur (Li‐S) battery. However, cracks are easily generated inside the electrode and compromise its performance due to the volume change of sulfur during redox reaction and continuous vibration originated from the external environments. It is a challenge yet crucial to develop tough binders with crack‐insensitivity and damping performance. Herein, a polymeric binder is designed with special viscoelastic behavior by tailo… Show more

“…Conductive hydrogels have excited enhancing interest due to the advantages of good electrical conductivity and ideal flexibility similar to that of human tissues, which demonstrating potential applications in tissue repair, , bone repair, , drug delivery, , electronic skin, soft robotics and wearable electronics. − However, conventional conductive hydrogels suffer from poor biocompatibility and low antimicrobial activity due to the addition of conductive fillers. Previous studies have confirmed that the introduction of zwitterionic segments into the hydrogel system could significantly improve its biocompatibility and antimicrobial activity by preventing the nonspecific adsorption of biomolecules such as cells, proteins and bacteria. − However, zwitterionic polymer based hydrogels are always weak because the strong ionic interaction nature of the polymers reduces the interactions between polymer chains.…”

High Strength, Swelling Resistance, Antimicrobial and Conductive Zwitterionic Hydrogel Based on Cellulose Frame

“…Conductive hydrogels have excited enhancing interest due to the advantages of good electrical conductivity and ideal flexibility similar to that of human tissues, which demonstrating potential applications in tissue repair, , bone repair, , drug delivery, , electronic skin, soft robotics and wearable electronics. − However, conventional conductive hydrogels suffer from poor biocompatibility and low antimicrobial activity due to the addition of conductive fillers. Previous studies have confirmed that the introduction of zwitterionic segments into the hydrogel system could significantly improve its biocompatibility and antimicrobial activity by preventing the nonspecific adsorption of biomolecules such as cells, proteins and bacteria. − However, zwitterionic polymer based hydrogels are always weak because the strong ionic interaction nature of the polymers reduces the interactions between polymer chains.…”

High Strength, Swelling Resistance, Antimicrobial and Conductive Zwitterionic Hydrogel Based on Cellulose Frame

Adhesive Zwitterionic Poly(ionic liquid) with Unprecedented Organic Solvent Resistance