Upcycling Polyolefin Blends into High-Performance Materials by Exploiting Azidotriazine Chemistry Using Reactive Extrusion

Abstract: The revalorization of incompatible polymer blends is a key obstacle in realizing a circular economy in the plastics industry. Polyolefin waste is particularly challenging because it is difficult to sort into its constituent components. Untreated blends of polyethylene and polypropylene typically exhibit poor mechanical properties that are suitable only for low-value applications. Herein, we disclose a simple azidotriazine-based grafting agent that enables polyolefin blends to be directly upcycled into high-per… Show more

“…can be installed on postconsumer materials. − Although the resulting polymers exhibit decreased crystallinities due to the introduction of noncrystallizable moieties, they more importantly exhibit enhanced extensibilities, surface adhesion strength, and toughness. These reactive functionalization protocols are promising tools for tailored compatibility between polyolefin phases, and have been demonstrated in other polymer compositions using H-bonding, ionomers, and π–π stacking. − There have also been significant advances in applying the concepts of dynamic cross-links to reactive compatibilization, thereby preserving processability and improving compatibility. − Notable recent examples include the use of diazirines, azidotriazenes, and thiosulfonates to functionalize polyolefins with dynamic cross-linking moieties. The resulting blends exhibit improved compatibility, creep resistance, and in some cases enhanced mechanical toughness.…”

Advances in Nonreactive Polymer Compatibilizers for Commodity Polyolefin Blends

“…can be installed on postconsumer materials. − Although the resulting polymers exhibit decreased crystallinities due to the introduction of noncrystallizable moieties, they more importantly exhibit enhanced extensibilities, surface adhesion strength, and toughness. These reactive functionalization protocols are promising tools for tailored compatibility between polyolefin phases, and have been demonstrated in other polymer compositions using H-bonding, ionomers, and π–π stacking. − There have also been significant advances in applying the concepts of dynamic cross-links to reactive compatibilization, thereby preserving processability and improving compatibility. − Notable recent examples include the use of diazirines, azidotriazenes, and thiosulfonates to functionalize polyolefins with dynamic cross-linking moieties. The resulting blends exhibit improved compatibility, creep resistance, and in some cases enhanced mechanical toughness.…”

Advances in Nonreactive Polymer Compatibilizers for Commodity Polyolefin Blends

Efficient and Robust Dynamic Crosslinking for Compatibilizing Immiscible Mixed Plastics through In Situ Generated Singlet Nitrenes

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