Development of tri-layer antioxidant packaging systems based on recycled PLA/sodium caseinate/recycled PLA reinforced with lignocellulosic nanoparticles extracted from yerba mate waste

Tri-layer films based on glycerol-plasticized sodium caseinate film (SC) as the middle layer and two outer layers of mechanically recycled poly(lactic acid) (RPLA) were successfully developed. Additionally, the internal RPLA-based layer was loaded either with 1 or 3 wt% of lignocellulose nanoparticl...

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Published in:Express polymer letters 2022-08, Vol.16 (8), p.881-900
Main Authors: Arrieta, Marina Patricia, Beltran, Freddys, Abarca de las Muelas, Sara Soledad, Gaspar, Gerald, Sanchez Hernandez, Rafael, de la Orden, Maria Ulagares, Martinez Urreaga, Joaquin
Format: Article
Language:English
Subjects:
Acids
Adhesion
Antioxidants
Biodegradability
biodegradable polymers
Composting
Disintegration
Food
Food packaging
Gallic acid
Hydrogen bonding
Lignocellulose
lignocellulosic nanoparticles
Molecular weight
Nanocomposites
Nanoparticles
Packaging
Polylactic acid
Polymers
Polyphenols
Recycling
Scavenging
Sodium
Surfactants
Water vapor
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cited_by cdi_FETCH-LOGICAL-c403t-41825ae174663c028daf6137b3706a51621f03993c79adc2b0a84ff78c5f21a3
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container_end_page 900
container_issue 8
container_start_page 881
container_title Express polymer letters
container_volume 16
creator Arrieta, Marina Patricia
Beltran, Freddys
Abarca de las Muelas, Sara Soledad
Gaspar, Gerald
Sanchez Hernandez, Rafael
de la Orden, Maria Ulagares
Martinez Urreaga, Joaquin
description Tri-layer films based on glycerol-plasticized sodium caseinate film (SC) as the middle layer and two outer layers of mechanically recycled poly(lactic acid) (RPLA) were successfully developed. Additionally, the internal RPLA-based layer was loaded either with 1 or 3 wt% of lignocellulose nanoparticles extracted from yerba mate waste (YMNs) to obtain antioxidant-active packaging formulations. YMNs were also surface modified with a surfactant to increase the interfacial adhesion and improve their dispersion into the polymeric matrix. The tri-layer system composed of YMNs loaded nanocomposites (RPLA/SC/RPLA-YMN1 and RPLA/SC/RPLA-YMN3) exhibited an improved oxygen barrier compared to the nonreinforced system counterpart (RPLA/SC/RPLA). The high water vapor permeability of SC was reduced in tri-layer systems, ascribed to the protection of the middle SC layer by the hydrophobic RPLA layers at both sides. The improved performance of all these properties was ascribed to the good adhesion between PLA and SC layers, ascribed to hydrogen bonding interactions. Furthermore, the obtained tri-layer structures showed effective antioxidant ability for fatty food, as it was demonstrated by release studies conducted in a fatty food simulant and further analysis of the radical-scavenging activity showing good antioxidant properties (RPLA/SC/RPLA-YMN1 = 36.8±2.5 GA mg/dm2 film and RPLA/SC/RPLA-YMN3 = 81.1±2.5 Gallic Acid mg/dm2 film). Finally, the tri-layer films were disintegrated under composting conditions in 17 days. Thus, the results show the potential of the mechanical recycling process of PLA as a sustainable alternative to revalorizing PLA waste, while the revalorization of yerba mate waste shows its interest by easily providing the materials with antioxidant properties. Finally, the tri-layer bio-based and biodegradable active formulations resulted in interesting materials for fatty foodstuffs.
doi_str_mv 10.3144/expresspolymlett.2022.64
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Additionally, the internal RPLA-based layer was loaded either with 1 or 3 wt% of lignocellulose nanoparticles extracted from yerba mate waste (YMNs) to obtain antioxidant-active packaging formulations. YMNs were also surface modified with a surfactant to increase the interfacial adhesion and improve their dispersion into the polymeric matrix. The tri-layer system composed of YMNs loaded nanocomposites (RPLA/SC/RPLA-YMN1 and RPLA/SC/RPLA-YMN3) exhibited an improved oxygen barrier compared to the nonreinforced system counterpart (RPLA/SC/RPLA). The high water vapor permeability of SC was reduced in tri-layer systems, ascribed to the protection of the middle SC layer by the hydrophobic RPLA layers at both sides. The improved performance of all these properties was ascribed to the good adhesion between PLA and SC layers, ascribed to hydrogen bonding interactions. Furthermore, the obtained tri-layer structures showed effective antioxidant ability for fatty food, as it was demonstrated by release studies conducted in a fatty food simulant and further analysis of the radical-scavenging activity showing good antioxidant properties (RPLA/SC/RPLA-YMN1 = 36.8±2.5 GA mg/dm2 film and RPLA/SC/RPLA-YMN3 = 81.1±2.5 Gallic Acid mg/dm2 film). Finally, the tri-layer films were disintegrated under composting conditions in 17 days. Thus, the results show the potential of the mechanical recycling process of PLA as a sustainable alternative to revalorizing PLA waste, while the revalorization of yerba mate waste shows its interest by easily providing the materials with antioxidant properties. 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Additionally, the internal RPLA-based layer was loaded either with 1 or 3 wt% of lignocellulose nanoparticles extracted from yerba mate waste (YMNs) to obtain antioxidant-active packaging formulations. YMNs were also surface modified with a surfactant to increase the interfacial adhesion and improve their dispersion into the polymeric matrix. The tri-layer system composed of YMNs loaded nanocomposites (RPLA/SC/RPLA-YMN1 and RPLA/SC/RPLA-YMN3) exhibited an improved oxygen barrier compared to the nonreinforced system counterpart (RPLA/SC/RPLA). The high water vapor permeability of SC was reduced in tri-layer systems, ascribed to the protection of the middle SC layer by the hydrophobic RPLA layers at both sides. The improved performance of all these properties was ascribed to the good adhesion between PLA and SC layers, ascribed to hydrogen bonding interactions. Furthermore, the obtained tri-layer structures showed effective antioxidant ability for fatty food, as it was demonstrated by release studies conducted in a fatty food simulant and further analysis of the radical-scavenging activity showing good antioxidant properties (RPLA/SC/RPLA-YMN1 = 36.8±2.5 GA mg/dm2 film and RPLA/SC/RPLA-YMN3 = 81.1±2.5 Gallic Acid mg/dm2 film). Finally, the tri-layer films were disintegrated under composting conditions in 17 days. Thus, the results show the potential of the mechanical recycling process of PLA as a sustainable alternative to revalorizing PLA waste, while the revalorization of yerba mate waste shows its interest by easily providing the materials with antioxidant properties. 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source Publicly Available Content (ProQuest); Free Full-Text Journals in Chemistry
subjects Acids
Adhesion
Antioxidants
Biodegradability
biodegradable polymers
Composting
Disintegration
Food
Food packaging
Gallic acid
Hydrogen bonding
Lignocellulose
lignocellulosic nanoparticles
Molecular weight
Nanocomposites
Nanoparticles
Packaging
Polylactic acid
Polymers
Polyphenols
Recycling
Scavenging
Sodium
Surfactants
Water vapor
title Development of tri-layer antioxidant packaging systems based on recycled PLA/sodium caseinate/recycled PLA reinforced with lignocellulosic nanoparticles extracted from yerba mate waste
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