Effect of the polymer microstructure on the behavior of syndiotactic polypropylene/organophilic layered silicate composites

Abstract: Syndiotactic polypropylenes (sPPs) with several microstructures (i.e., syndiotacticities and molecular weights) and synthesized by means of two metallocenic catalysts were melt-blended with 1 and 3 wt % organophilic layered silicates in the presence of a compatibilizer. X-ray diffraction and transmission electron microscopy analysis showed that the clay was well dispersed in the composites, although the filler morphology depended on the polymer microstructure. Polypropylenes with low syndiotacticities and mole… Show more

“…The addition of nanoparticles may be beneficial in these systems as sPP has lower crystallinity and crystallization rate than iPP, thus limiting its mechanical properties and commercial impact. Therefore, the addition of nanoparticles acting as nucleating agents could improve these characteristics of sPP as reported previously for clay nanoparticles …”

Effect of Polymer Structure and Incorporation of Nanoparticles on the Behavior of Syndiotactic Polypropylenes

“…The addition of nanoparticles may be beneficial in these systems as sPP has lower crystallinity and crystallization rate than iPP, thus limiting its mechanical properties and commercial impact. Therefore, the addition of nanoparticles acting as nucleating agents could improve these characteristics of sPP as reported previously for clay nanoparticles …”

Effect of Polymer Structure and Incorporation of Nanoparticles on the Behavior of Syndiotactic Polypropylenes

Metal–Organic Framework Supported on Processable Polymer Matrix by In Situ Copolymerization for Enhanced Iron(III) Detection

Poly(lactic acid)/TiO2 nanocomposites as alternative biocidal and antifungal materials