Synthesis of high-toughness waterborne polyurethane utilizing self-emulsifying CO2-based polyols

“…25 Recently, polyols produced from PO/AGE/CO 2 were functionalized with mercaptopropionic acid, which afforded polycarbonates with high toughness and tensile strength for synthesizing waterborne polyurethanes. 45…”

“…25 Recently, polyols produced from PO/AGE/CO 2 were functionalized with mercaptopropionic acid, which afforded polycarbonates with high toughness and tensile strength for synthesizing waterborne polyurethanes. 45 This methodology for the schematic synthesis of functional aPCs has provided for the first time polymeric nanoparticles derived from the coupling of CO 2 /PO/AGE using a (salen) CoTFA/PPNTFA (TFA = trifluoroacetate) binary catalyst system (Scheme 3a). 42 In this study, post-polymerization alteration of these triblock polymers with thiols yielded amphiphilic polycarbonates with negative or positive charges, which exhibited self-assembly into spherical nanostructures when added to de-Scheme 2 Click chemistry and its applications.…”

Post-polymerization functionalization of aliphatic polycarbonates using click chemistry

“…25 Recently, polyols produced from PO/AGE/CO 2 were functionalized with mercaptopropionic acid, which afforded polycarbonates with high toughness and tensile strength for synthesizing waterborne polyurethanes. 45…”

“…25 Recently, polyols produced from PO/AGE/CO 2 were functionalized with mercaptopropionic acid, which afforded polycarbonates with high toughness and tensile strength for synthesizing waterborne polyurethanes. 45 This methodology for the schematic synthesis of functional aPCs has provided for the first time polymeric nanoparticles derived from the coupling of CO 2 /PO/AGE using a (salen) CoTFA/PPNTFA (TFA = trifluoroacetate) binary catalyst system (Scheme 3a). 42 In this study, post-polymerization alteration of these triblock polymers with thiols yielded amphiphilic polycarbonates with negative or positive charges, which exhibited self-assembly into spherical nanostructures when added to de-Scheme 2 Click chemistry and its applications.…”

Post-polymerization functionalization of aliphatic polycarbonates using click chemistry

Polyester/polyether polyurethane sizing coatings with poly(diaminosiloxane) branched dual interpenetrating crosslinked networks for enhancing carbon fibre wettability and interfacial properties

Enhanced mechanical strength and water resistance in waterborne polyurethanes through hydroxyl-functionalized MQ silicone resin modification