期刊
MATERIALS CHEMISTRY AND PHYSICS
卷 257, 期 -, 页码 -出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.matchemphys.2020.123742
关键词
Microporous; PP nanocomposites; 3D and 2D nanoparticles; Morphology; Wetting behavior
资金
- Council of Scientific and Industrial Research (CSIR), New Delhi, India
Microporous polypropylene (PP) nanocomposite membranes were prepared by melt mixing of polypropylene and natural rubber, followed by etching of the rubber phase. Nanoparticles with different shapes were used to study their influence on pore morphology and wetting properties of the membranes. The shape, properties, and active surface area of the nanofillers greatly affect the morphological, mechanical, and wetting properties of microporous PP membranes.
Microporous polypropylene (PP) nanocomposite membranes suitable for various applications such as energy storage, water purification, membrane separation, etc., were prepared by melt mixing of polypropylene and natural rubber (NR) subsequently followed by etching of rubber phase. Nanoparticles having spherical shape (Al2O3), irregular shape (TiO2), and 2D platelet morphology (Cloisite 30 B (C-30 B)), were used to the influence of nanoparticles on pore morphology and wetting properties of PP. Morphology of PP membrane was investigated by SEM and TEM analysis and the study reveals that all the prepared membranes possess a co-continuous porous structure with a minimum percentage porosity of 62 +/- 2. Mechanical studies showed that the nano particles have a significant effect on tensile strength, strain to failure, and Young's modulus. DSC results indicate that the nanoparticles do not make any significant change on the melting temperature of polypropylene. Polarized optical microscopic studies reveal that nanofillers enhances spherulite growth by acting as a heterogeneous nucleating agent. Contact angle measurements using two different test liquids (distilled water and Dimethyl sulfoxide (DMSO)), reveals that Al2O3 added PP exhibits good wettability in both the test liquids. The present studies reveal that the shape, properties, and active surface area of the nanofillers greatly influence the morphological mechanical and wetting properties of microporous PP.
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