2019
DOI: 10.3390/polym11081337
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Surface Engineering of Fluoropolymer Films via the Attachment of Crown Ether Derivatives Based on the Combination of Radiation-Induced Graft Polymerization and the Kabachnik–Fields Reaction

Abstract: In this manuscript, we present the successful attachment of crown ether moieties onto fluoropolymer surfaces, via the combination of radiation-induced graft polymerization and a subsequent surface Kabachnik–Fields three-component reaction. The obtained crown ether-tethered fluoropolymer films exhibited an ammonium cation capturing ability, owing to the host–guest interactions (i.e., hydrogen bonding) between the surface-anchored crown ethers and the guest ammonium cations.

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Cited by 6 publications
(5 citation statements)
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“…This allows for a variety of applications [144]. Over the last 5 years, the major applications remain in accordance to societal needs with the development of: adsorbents for depollution (removal of toxic metals [144][145][146][147][148][149][150][151][152], ammonia/ammonium species [153,154], atmospheric CO 2 [155]); exchange membranes for fuel cell (anion [156,157] and proton [158,159], batteries or super capacitors [116]; functional fibers other than adsorbent applications (flame-retardant [160], antistatic and antibacterial [161] properties); and numerous applications are emerging in the field of renewable energies [162].…”
Section: Radiation-induced Grafting Of Solid Polymersmentioning
confidence: 99%
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“…This allows for a variety of applications [144]. Over the last 5 years, the major applications remain in accordance to societal needs with the development of: adsorbents for depollution (removal of toxic metals [144][145][146][147][148][149][150][151][152], ammonia/ammonium species [153,154], atmospheric CO 2 [155]); exchange membranes for fuel cell (anion [156,157] and proton [158,159], batteries or super capacitors [116]; functional fibers other than adsorbent applications (flame-retardant [160], antistatic and antibacterial [161] properties); and numerous applications are emerging in the field of renewable energies [162].…”
Section: Radiation-induced Grafting Of Solid Polymersmentioning
confidence: 99%
“…Among many polymers whose surfaces are modified by RIG, the most commonly used polymers are polyolefins such as polyethylene (PE) [146,148,155], polypropylene (PP) [148], and with a new trend using recycled polyolefin waste (PPw) [145]. There are also a significant number of reports of using surface modification of polyamide (PA) [155,161,170,171], poly(ethylene terephthalate) (PET) [155,172,173], polyurethane (PUR) [174,175], fluoropolymers [154] such as poly(tetrafluoroethylene) (PTFE) [176,177] poly(ethylene-co-tetrafluroethylene) [156,178] and poly(vinylidene fluoride) (PVDF) [116,153,159,[179][180][181], cellulose [182,183], and many biopolymers such as chitosan [149]. Novel organic surfaces based on graphene oxide [151] have also emerged as organic materials that can be grafted by radiation.…”
Section: Polymer Substrate Chemistrymentioning
confidence: 99%
“…It is noteworthy that the KF reaction has also been widely used in the modification of preexisting polymers [99][100][101][102][103][104][105][106][107] and in one-pot combination with radical polymerization. [108][109][110] To the best of our knowledge, however, no synthesis of 3D structured materials was reported for the KF-3CR.…”
Section: 2a Kabachnik-fieldsmentioning
confidence: 99%
“…However, these methods can readily damage PTFE structures and cause environmental pollution. As a dry treatment method, plasma treatment is widely used for the surface modification of PTFE, which can introduce a variety of active functional groups on the surface in a short time [ 28 , 29 , 30 , 31 , 32 , 33 ]. However, the wettability after plasma treatment depends on numerous process parameters, such as the type of discharge, feed gas, working pressure, input power, and treatment time.…”
Section: Introductionmentioning
confidence: 99%