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Smart Poly(lactic acid)-functionalized films with cardanol-based nanovesicles obtained from renewable resources for food packaging application

TitleSmart Poly(lactic acid)-functionalized films with cardanol-based nanovesicles obtained from renewable resources for food packaging application
Publication TypePresentazione a Congresso
Year of Publication2018
AuthorsMassaro, C., Cosentino F., Terzi R., Marciano T., Capodieci Laura, Bloise E., and Mele G.
Conference Name2015 1st Workshop on Nanotechnology in Instrumentation and Measurement, NANOFIM 2015
KeywordsAntibacterial properties, Biopolymers, Cardanols, Conformational change, Environmental-friendly, Food packaging, Functional food, Lactic acid, Mechanical properties, Mechanical testing, Nano-vesicles, Nanocomposite films, nanotechnology, Packaging machines, Polylactic acids, Porphyrin molecules, Porphyrins
Abstract

Poly(lactic acid) (PLA) is a very attractive polymer for food packaging application. In this work we tried to develop a smart PLA film, especially to improve its potential food applications providing antibacterial properties by means of functionalization of the film surface with cardanol-based vesicle nanodispersion obtained by an environmental-friendly process. We used cardanol-based nanovesicles loaded with porphyrin molecules itself cardanol functionalized, in order to prepare a composite material that can act as potential 'smart film' as acid indicator: The film changes its colour according to the acid atmosphere it reveals thanks to the conformational change of porphyrin. Starting from commercial PLA pellets, films were extruded and cardanol-based nanovescicles embedded with porphyrin were deposited on these PLA films by simple casting of the aqueous vescicular nanodispersion. The functionalized PLA films were then studied by mechanical testing. SEM-FEG characterization, and UV-visible measurements were performed to investigate the presence of cardanol-based nanodispersion on the film and the acid response of porphyrin. © 2015 IEEE.

URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85052246555&doi=10.1109%2fNANOFIM.2015.8425340&partnerID=40&md5=cb3e5d286ced35052cc355b64c654909
DOI10.1109/NANOFIM.2015.8425340
Citation KeyMassaro2018212