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In situ sonochemical synthesis of ZnO particles embedded in a thermoplastic matrix for biomedical applications

Zinc oxide particles were synthesized and dispersed in situ in a polystyrene (PS) matrix using ultrasound. PS ultrasonic degradation was investigated at different polymer concentrations in organic solvent in contact with aqueous media prior to the particle synthesis. Decrease in weight-average molec...

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Bibliographic Details
Published in:Materials Science & Engineering C 2015-04, Vol.49, p.58-65
Main Authors: Ureña, Yendry Regina Corrales, Bettini, Silvia Helena Prado, Muñoz, Pablo Riveros, Wittig, Linda, Rischka, Klaus, Lisboa-Filho, Paulo N.
Format: Article
Language:English
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Summary:Zinc oxide particles were synthesized and dispersed in situ in a polystyrene (PS) matrix using ultrasound. PS ultrasonic degradation was investigated at different polymer concentrations in organic solvent in contact with aqueous media prior to the particle synthesis. Decrease in weight-average molecular weight (Mw) was strongly dependent on polymer concentration in organic solvent and sonication time: degradation occurred less at higher polymer concentration, yet increased with longer times of more than 30min. The ZnO particles with a 800nm flower-like morphology were dispersed in the polystyrene matrix in situ; the composite presented both a lower average molecular weight (Mw) and lower number average molecular weight Mn when compared to pristine polystyrene, however thermal degradation temperature and Young's modulus were similar to the pristine polystyrene. The composite prepared in situ presented lower particle aggregation in comparison with ZnO commercially dispersed with ultrasound under the same conditions. Antibacterial activity of the ZnO/PS coating was tested against Escherichia coli (Gram-negative bacteria; DMS No. 10290) by evaluating bacterial growth inhibition after 20h on contact with the film surface. The results indicated that bacterial growth was inhibited in the medium in contact with the composite prepared in situ compared to the film of composite prepared by mixing and the pristine PS. This study showed the potential use of ZnO/PS composite prepared in situ as antibacterial coatings. •Higher polymer concentration and less ultrasound time lower polymer degradation.•The composite present similar Young modulus and thermal degradation temperature.•ZnO particles with flower-like morphology were synthesized and dispersed in situ.•The composites prepared in situ present good dispersion of the ZnO particles.•The composite films displayed strong antibacterial effect against E. coli.
ISSN:0928-4931
1873-0191
DOI:10.1016/j.msec.2014.12.022