Supercritical impregnation of cinnamaldehyde into polylactic acid as a route to develop antibacterial food packaging materials

Supercritical impregnation was used to incorporate a natural compound with antibacterial activity into biopolymer-based films to develop active food packaging materials. Impregnation tests were carried out under two pressure conditions (9 and 12MPa), and three depressurization rates (0.1, 1 and 10MP...

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Veröffentlicht in:	Food research international 2017-09, Vol.99 (Pt 1), p.650-659
Hauptverfasser:	Villegas, Carolina, Torres, Alejandra, Rios, Mauricio, Rojas, Adrián, Romero, Julio, de Dicastillo, Carol López, Valenzuela, Ximena, Galotto, María José, Guarda, Abel
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Sprache:	eng
Schlagworte:	Acrolein - analogs & derivatives Anti-Bacterial Agents Antimicrobial active packaging Biopolymers - chemistry Cinnamaldehyde Food Packaging - instrumentation Food Packaging - methods Permeability Polyesters Polylactic acid (PLA) Pressure Supercritical impregnation process
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container_title	Food research international
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creator	Villegas, Carolina Torres, Alejandra Rios, Mauricio Rojas, Adrián Romero, Julio de Dicastillo, Carol López Valenzuela, Ximena Galotto, María José Guarda, Abel
description	Supercritical impregnation was used to incorporate a natural compound with antibacterial activity into biopolymer-based films to develop active food packaging materials. Impregnation tests were carried out under two pressure conditions (9 and 12MPa), and three depressurization rates (0.1, 1 and 10MPamin−1) in a high-pressure cell at a constant temperature equal to 40°C. Cinnamaldehyde (Ci), a natural compound with proven antimicrobial activity, was successfully incorporated into poly(lactic acid) films (PLA) using supercritical carbon dioxide (scCO2), with impregnation yields ranging from 8 to 13% w/w. Higher pressure and slower depressurization rate seem to favor the Ci impregnation. The incorporation of Ci improved thermal, structural and mechanical properties of the PLA films. Impregnated films were more flexible, less brittle and more resistant materials than neat PLA films. The tested samples showed strong antibacterial activity against the selected microorganisms. In summary, this study provides an innovative route to the development of antibacterial biodegradable materials, which could be used in a wide range of applications of active food packaging. [Display omitted] •PLA films were impregnated with cinnamaldehyde using supercritical CO2.•Higher pressure and slower depressurization rate favored Ci impregnation.•Cinnamaldehyde improved thermo-mechanical properties of impregnated biopolymer films.•PLA films containing 13% of cinnamaldehyde presented strong antibacterial activity.
doi_str_mv	10.1016/j.foodres.2017.06.031
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Impregnation tests were carried out under two pressure conditions (9 and 12MPa), and three depressurization rates (0.1, 1 and 10MPamin−1) in a high-pressure cell at a constant temperature equal to 40°C. Cinnamaldehyde (Ci), a natural compound with proven antimicrobial activity, was successfully incorporated into poly(lactic acid) films (PLA) using supercritical carbon dioxide (scCO2), with impregnation yields ranging from 8 to 13% w/w. Higher pressure and slower depressurization rate seem to favor the Ci impregnation. The incorporation of Ci improved thermal, structural and mechanical properties of the PLA films. Impregnated films were more flexible, less brittle and more resistant materials than neat PLA films. The tested samples showed strong antibacterial activity against the selected microorganisms. In summary, this study provides an innovative route to the development of antibacterial biodegradable materials, which could be used in a wide range of applications of active food packaging. [Display omitted] •PLA films were impregnated with cinnamaldehyde using supercritical CO2.•Higher pressure and slower depressurization rate favored Ci impregnation.•Cinnamaldehyde improved thermo-mechanical properties of impregnated biopolymer films.•PLA films containing 13% of cinnamaldehyde presented strong antibacterial activity.</description><identifier>ISSN: 0963-9969</identifier><identifier>EISSN: 1873-7145</identifier><identifier>DOI: 10.1016/j.foodres.2017.06.031</identifier><identifier>PMID: 28784528</identifier><language>eng</language><publisher>Canada: Elsevier Ltd</publisher><subject>Acrolein - analogs & derivatives ; Anti-Bacterial Agents ; Antimicrobial active packaging ; Biopolymers - chemistry ; Cinnamaldehyde ; Food Packaging - instrumentation ; Food Packaging - methods ; Permeability ; Polyesters ; Polylactic acid (PLA) ; Pressure ; Supercritical impregnation process</subject><ispartof>Food research international, 2017-09, Vol.99 (Pt 1), p.650-659</ispartof><rights>2017 Elsevier Ltd</rights><rights>Copyright © 2017 Elsevier Ltd. 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Impregnation tests were carried out under two pressure conditions (9 and 12MPa), and three depressurization rates (0.1, 1 and 10MPamin−1) in a high-pressure cell at a constant temperature equal to 40°C. Cinnamaldehyde (Ci), a natural compound with proven antimicrobial activity, was successfully incorporated into poly(lactic acid) films (PLA) using supercritical carbon dioxide (scCO2), with impregnation yields ranging from 8 to 13% w/w. Higher pressure and slower depressurization rate seem to favor the Ci impregnation. The incorporation of Ci improved thermal, structural and mechanical properties of the PLA films. Impregnated films were more flexible, less brittle and more resistant materials than neat PLA films. The tested samples showed strong antibacterial activity against the selected microorganisms. In summary, this study provides an innovative route to the development of antibacterial biodegradable materials, which could be used in a wide range of applications of active food packaging. [Display omitted] •PLA films were impregnated with cinnamaldehyde using supercritical CO2.•Higher pressure and slower depressurization rate favored Ci impregnation.•Cinnamaldehyde improved thermo-mechanical properties of impregnated biopolymer films.•PLA films containing 13% of cinnamaldehyde presented strong antibacterial activity.</description><subject>Acrolein - analogs & derivatives</subject><subject>Anti-Bacterial Agents</subject><subject>Antimicrobial active packaging</subject><subject>Biopolymers - chemistry</subject><subject>Cinnamaldehyde</subject><subject>Food Packaging - instrumentation</subject><subject>Food Packaging - methods</subject><subject>Permeability</subject><subject>Polyesters</subject><subject>Polylactic acid (PLA)</subject><subject>Pressure</subject><subject>Supercritical impregnation process</subject><issn>0963-9969</issn><issn>1873-7145</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2017</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqFkE1v1DAQhi1ERZeWnwDykUuCncR2ckKo4kuqxKH0bE3Gk8VLEgc7qbQXfjte7cKVi0eyn3dm_DD2WopSCqnfHcohBBcplZWQphS6FLV8xnayNXVhZKOes53odF10ne6u2cuUDkIIrUz3gl1XrWkbVbU79vthWyhi9KtHGLmflkj7GVYfZh4Gjn6eYYLR0Y-jI-7nNfAljMcRMAc4oHccEgcew7YSz6-OnmgMC4d59X2mKPrc97QrXwB_wt7Pez7B-T7dsqshF3p1qTfs8dPH73dfivtvn7_efbgvsNZqLcCp3kgBqjOul00vDSLgUA16kFVdmabRve4qVFqK2jTYKwdt73AgIshHfcPenvsuMfzaKK128glpHGGmsCUru8rUolHCZFSdUYwhpUiDXaKfIB6tFPak3h7sRb09qbdC26w-595cRmz9RO5f6q_rDLw_A5Q_-uQp2oSeZiTnI-FqXfD_GfEHD4icIA</recordid><startdate>201709</startdate><enddate>201709</enddate><creator>Villegas, Carolina</creator><creator>Torres, Alejandra</creator><creator>Rios, Mauricio</creator><creator>Rojas, Adrián</creator><creator>Romero, Julio</creator><creator>de Dicastillo, Carol López</creator><creator>Valenzuela, Ximena</creator><creator>Galotto, María José</creator><creator>Guarda, Abel</creator><general>Elsevier Ltd</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>201709</creationdate><title>Supercritical impregnation of cinnamaldehyde into polylactic acid as a route to develop antibacterial food packaging materials</title><author>Villegas, Carolina ; 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subjects	Acrolein - analogs & derivatives Anti-Bacterial Agents Antimicrobial active packaging Biopolymers - chemistry Cinnamaldehyde Food Packaging - instrumentation Food Packaging - methods Permeability Polyesters Polylactic acid (PLA) Pressure Supercritical impregnation process
title	Supercritical impregnation of cinnamaldehyde into polylactic acid as a route to develop antibacterial food packaging materials
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