Reactive polymer blending is basically a flow/mixing‐driven process of interfacial
generation, interfacial reaction for copolymer formation, and morphology development. This …

Mixed plastic waste recycling represents a significant challenge as the phase separation of
different components dictates downgraded performance. Polymer‐based compatibilizers …

We report a novel and effective strategy that compatibilizes three immiscible polymers,
polyolefins, styrene polymers, and engineering plastics, achieved by using a polyolefin …

Highly immiscible blend materials with distinctive and excellent properties play a key role in
meeting the application needs, especially in extreme environments, and reactive …

Abstract CsPbX 3 (X= Cl, Br, I) perovskite nanocrystals (NCs) are emerging as promising
candidates for fluorescence sensors due to their superior optoelectronic properties …

Thermoplastic polyurethane (TPU)/methyl vinyl silicone elastomer (MVQ) blends exhibit the
advantages of excellent texture and biocompatibility, finding applications in wearable …

Multi-phase compatibilizers are potentially attractive, not only for the preparation of ternary
or multi-phase immiscible polymer blends with high performance, but also for recycling and …

This work reports that a partially wet phase can compatibilize and toughen a co-continuous
PLA/PA11 blend. Four different polymers: PBS, PBAT, EMA and EMA-GMA are examined for …

A poly (ethylene-cb-propylene) comb block copolymer (P (E-cb-P)), prepared by
copolymerization of vinyl-terminated atactic polypropylene and ethylene, was used to …

Nanoparticles are used to compatibilize immiscible polymer blends. The key to success is to
localize nanoparticles at polymer-polymer interfaces. This work aims to use silica …