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Investigating the properties and hydrolysis ability of poly-lactic acid/chitosan nanocomposites using polycaprolactone

Trang, N.T.T. and Chinh, N.T. and Thanh, D.T.M. and Hang, T.T.X. and Giang, N.V. and Hoang, T. and Quan, P.M. and Giang, L.D. and Thai, N.V. and Lawrence, G. (2015) Investigating the properties and hydrolysis ability of poly-lactic acid/chitosan nanocomposites using polycaprolactone. Journal of Nanoscience and Nanotechnology, 15 (12). pp. 9585-9590. ISSN 15334880

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Abstract

Poly-lactic acid (PLA) has been widely applied in the medical field (in biomedicines such as medical capsules, surgical sutures and suture wounds) owing to its high biodegradability, good biocompatibility and ability to be dissolved in common solvents. Chitosan (CS) is an abundant polysaccharide and a cationic polyelectrolyte present in nature. In this study, the combination of PLA and CS has been used to form PLA/CS nanocomposites having the advantages of both the original components. To enhance the dispersibility and compatibility between PLA and CS in the PLA/CS nanocomposites, polycaprolactone (PCL) is added as a compatibilizer. The Fourier Transform Infrared spectroscopies prove the existence of the interactions of PCL with PLA and CS. A more regular dispersion of CS of 200-400 nm particle size, is observed in the PLA matrix of the PLA/CS nanocomposites containing PCL, through the Field Emission Scanning Electron Microscopy images. The appearance of one glass transition temperature (Tg) value of PLA/CS/PCL nanocomposites occuring between the Tg values of PLA and CS in DSC diagrams confirms the improvement in the compatibility between PLA and CS, due to the presence of PCL. The TGA result shows that PCL plays an important role in enhancing the thermal stability of PLA/CS/PCL nanocomposites. The hydrolysis of PLA/CS/PCL nanocomposites in alkaline and phosphate buffer solutions was investigated. The obtained results show that the PLA/CS/PCL nanocomposites have slower hydrolysis ability than the PLA/CS composites. Copyright © 2015 American Scientific Publishers All rights reserved.

Item Type: Article
Divisions: Faculties > Faculty of Physical and Chemical Engineering
Identification Number: 10.1166/jnn.2015.10498
Uncontrolled Keywords: Biocompatibility; Biodegradability; Chitin; Chitosan; Dyes; Field emission microscopes; Fourier transform infrared spectroscopy; Glass; Hydrolysis; Lactic acid; Nanocomposites; Particle size; Polycaprolactone; Polyelectrolytes; Scanning electron microscopy; Temperature; Thermodynamic stability; Cationic polyelectrolyte; Common solvents; Dispersibilities; Field emission scanning electron microscopy; Medical fields; Phosphate buffer solutions; Poly lactic acid; Surgical sutures; Glass transition; chitosan; nanocomposite; polycaprolactone; polyester; polylactide; chemistry; hydrolysis; scanning electron microscopy; Chitosan; Hydrolysis; Microscopy, Electron, Scanning; Nanocomposites; Polyesters
Additional Information: Language of original document: English.
URI: http://eprints.lqdtu.edu.vn/id/eprint/9891

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