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Ball Milling to Produce Composites Based of Natural Clinoptilolite as a Carrier of Salicylate in Bio-Based PA11

Antimicrobial packaging systems are recognized as effective approaches to prolong food shelf life. In this context, Bio-based PA11 loaded with a food-grade zeolite were prepared using ball milling technology in the dry state. Zeolite was filled with sodium salicylate, as an antimicrobial agent, and...

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Autores principales: Bugatti, Valeria, Bernardo, Paola, Clarizia, Gabriele, Viscusi, Gianluca, Vertuccio, Luigi, Gorrasi, Giuliana
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2019
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6523260/
https://www.ncbi.nlm.nih.gov/pubmed/30959984
http://dx.doi.org/10.3390/polym11040634
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author Bugatti, Valeria
Bernardo, Paola
Clarizia, Gabriele
Viscusi, Gianluca
Vertuccio, Luigi
Gorrasi, Giuliana
author_facet Bugatti, Valeria
Bernardo, Paola
Clarizia, Gabriele
Viscusi, Gianluca
Vertuccio, Luigi
Gorrasi, Giuliana
author_sort Bugatti, Valeria
collection PubMed
description Antimicrobial packaging systems are recognized as effective approaches to prolong food shelf life. In this context, Bio-based PA11 loaded with a food-grade zeolite were prepared using ball milling technology in the dry state. Zeolite was filled with sodium salicylate, as an antimicrobial agent, and incorporated into the polymer matrix (~50 wt % of salicylate) at different loadings (up to 10 wt %). Structural characterization and an analysis of the physical properties (thermal, barrier, mechanical) were conducted on the composites’ films and compared with the unfilled PA11. The successful entrapment of the antimicrobial molecule into the zeolite’s cavities was demonstrated by the thermal degradation analysis, showing a delay in the molecule’s degradation. Morphological organization, evaluated using SEM analysis, indicated the homogeneous distribution of the filler within the polymer matrix. The filler improves the thermal stability of PA11 and mechanical properties, also enhancing its barrier properties against CO(2) and O(2). The elongated form of the zeolite particles, evaluated through SEM analysis, was used to model the permeability data. The controlled release of salicylate, evaluated as a function of time and found to depend on the filler loading, was analyzed using the Gallagher‒Corrigan model.
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spelling pubmed-65232602019-06-03 Ball Milling to Produce Composites Based of Natural Clinoptilolite as a Carrier of Salicylate in Bio-Based PA11 Bugatti, Valeria Bernardo, Paola Clarizia, Gabriele Viscusi, Gianluca Vertuccio, Luigi Gorrasi, Giuliana Polymers (Basel) Article Antimicrobial packaging systems are recognized as effective approaches to prolong food shelf life. In this context, Bio-based PA11 loaded with a food-grade zeolite were prepared using ball milling technology in the dry state. Zeolite was filled with sodium salicylate, as an antimicrobial agent, and incorporated into the polymer matrix (~50 wt % of salicylate) at different loadings (up to 10 wt %). Structural characterization and an analysis of the physical properties (thermal, barrier, mechanical) were conducted on the composites’ films and compared with the unfilled PA11. The successful entrapment of the antimicrobial molecule into the zeolite’s cavities was demonstrated by the thermal degradation analysis, showing a delay in the molecule’s degradation. Morphological organization, evaluated using SEM analysis, indicated the homogeneous distribution of the filler within the polymer matrix. The filler improves the thermal stability of PA11 and mechanical properties, also enhancing its barrier properties against CO(2) and O(2). The elongated form of the zeolite particles, evaluated through SEM analysis, was used to model the permeability data. The controlled release of salicylate, evaluated as a function of time and found to depend on the filler loading, was analyzed using the Gallagher‒Corrigan model. MDPI 2019-04-07 /pmc/articles/PMC6523260/ /pubmed/30959984 http://dx.doi.org/10.3390/polym11040634 Text en © 2019 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Bugatti, Valeria
Bernardo, Paola
Clarizia, Gabriele
Viscusi, Gianluca
Vertuccio, Luigi
Gorrasi, Giuliana
Ball Milling to Produce Composites Based of Natural Clinoptilolite as a Carrier of Salicylate in Bio-Based PA11
title Ball Milling to Produce Composites Based of Natural Clinoptilolite as a Carrier of Salicylate in Bio-Based PA11
title_full Ball Milling to Produce Composites Based of Natural Clinoptilolite as a Carrier of Salicylate in Bio-Based PA11
title_fullStr Ball Milling to Produce Composites Based of Natural Clinoptilolite as a Carrier of Salicylate in Bio-Based PA11
title_full_unstemmed Ball Milling to Produce Composites Based of Natural Clinoptilolite as a Carrier of Salicylate in Bio-Based PA11
title_short Ball Milling to Produce Composites Based of Natural Clinoptilolite as a Carrier of Salicylate in Bio-Based PA11
title_sort ball milling to produce composites based of natural clinoptilolite as a carrier of salicylate in bio-based pa11
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6523260/
https://www.ncbi.nlm.nih.gov/pubmed/30959984
http://dx.doi.org/10.3390/polym11040634
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