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    Highly thermostable and crystalline poly(butylene adipate) bionanocomposites prepared by in situ polycondensation with organically modified Moroccan beidellite clay

    Year: 2017

    Journal: Polym. Int., Volume 66, JUN, page 939–949

    Authors: Ilsouk, Mohamed; Raihane, Mustapha; Castelvetro, Valter; Lahcini, Mohammed; Bronco, Simona; Rhouta, Benaissa; Bianchic, Sabrina; Conzatti, Lucia

    Organizations: MESRSFC of Morocco; CNRST of Morocco; University of Pisa (International Academic Cooperation Support Action Program - Cooperation with the University Cadi Ayyad of Marrakech); Italian MIUR Cooperlink project [CII118NLTZ]; CNRST (Morocco)-CNRi (Italy) programme; Hassan II Academy of Science and Technology of Morocco/CSIC-Spain [AH11STC-nano 2011-2012, 2010MA003]

    Keywords: bionanocomposites; beidellite clay; poly(butylene adipate); in situ polycondensation; structure characterization; thermal properties

    Bionancomposites frombioplastics and nanoclays are of great interest for packaging, agricultural and other large-volume and niche applications due to their enhanced physical, thermal, mechanical and processing characteristics compared to the parent polymer. In this study, the biodegradable polyester poly(butylene adipate) (PBA) was synthesized by in situ polycondensation catalysed by titanium tetrabutoxide in the presence of the natural Moroccan clay beidellite (BDT). Optimization of the nanoclay exfoliation in the bionanocompositewas achieved by cation exchange of BDTwith cetyltrimethylammonium bromide (CTA) and by selecting the most effective among a range of organically modified xCTA-BDT (x = CTA/BDT equivalent feed ratio). Fourier transform infrared and H-1 NMR spectral and size exclusion chromatographic analyses confirmed the effectiveness of the in situ polymerization, yielding structurally regular PBA with narrow molecular weight dispersity and 7750 < <(M)over bar>(n) < 30 360 gmol(-1), depending on the organoclay load. X-ray diffraction and transmission electron microscopy analyses showed best clay dispersion and homogeneous distribution at 2 wt% 3CTA-BDT. From thermogravimetric analysis and differential scanning calorimetry results the thermal stability of PBA is greatly improved even at 1 wt% 3CTA-BDT, its glass transition temperature is nearly unaffected while crystallinity is increased by the organoclay nucleating action. These results, along with a bionanocomposite hydrophilicity only moderately higher than that of PBA, make this preparation approach particularly promising. (C) 2017 Society of Chemical Industry
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