Fluorine-Initiated Carboxyl Group Enhanced Combination Properties of the Polyethylene Separator for Lithium-Ion Batteries

Abstract: Due to the intrinsic inertness of polyethylene (PE), it is difficult to induce polar oxygen-containing groups onto the PE separator surface under mild conditions on a large scale and further enhance their wettability. Herein, utilizing the ultrastrong oxidation of elemental fluorine (F 2 ), it was found that F 2 could easily react with the PE separator surface via radical-related routes, and thus oxygen would be naturally captured onto the separator surface for its radical affinity. The fluorinated PE separato… Show more

“…A current trend is to modify chemically or physically the surface of the polyolefin separator in order to increase its electrolyte compatibility. 27 In recent years, most efforts have been made to develop new separators in order to improve commercial polyolefin separators. Poly(vinylidene fluoride) (PVDF) and its copolymers are one of the most investigated alternatives to polyolefins due to good mechanical strength, good wettability, chemical inertness, and thermal stability.…”

“…However, their limited wettability with new electrolytes, thermal shrinkage, and thermal meltdown properties limit the safety and high-power applications of lithium ion batteries. A current trend is to modify chemically or physically the surface of the polyolefin separator in order to increase its electrolyte compatibility …”

“…A current trend is to modify chemically or physically the surface of the polyolefin separator in order to increase its electrolyte compatibility. 27 …”

Current Trends and Perspectives of Polymers in Batteries

“…A current trend is to modify chemically or physically the surface of the polyolefin separator in order to increase its electrolyte compatibility. 27 In recent years, most efforts have been made to develop new separators in order to improve commercial polyolefin separators. Poly(vinylidene fluoride) (PVDF) and its copolymers are one of the most investigated alternatives to polyolefins due to good mechanical strength, good wettability, chemical inertness, and thermal stability.…”

“…However, their limited wettability with new electrolytes, thermal shrinkage, and thermal meltdown properties limit the safety and high-power applications of lithium ion batteries. A current trend is to modify chemically or physically the surface of the polyolefin separator in order to increase its electrolyte compatibility …”

“…A current trend is to modify chemically or physically the surface of the polyolefin separator in order to increase its electrolyte compatibility. 27 …”

Current Trends and Perspectives of Polymers in Batteries

Thickness regulation of electric double layer via electronegative separator to realize High-Performance Lithium-Metal batteries

Tri-monomer polyamide acid nanofiber separator for safe and high performance lithium-ion batteries