An eco-friendly chitosan/cellulose acetate hybrid nanostructure containing Ziziphora clinopodioides essential oils for active food packaging applications

Nazari, Maryam; Majdi, Hasan Shakir; Gholizadeh, Pourya; Kafil, Hossein Samadi; Hamishehkar, Hamed; Zarchi, Ali Akbar Karimi; Khoddami, Ali

doi:10.1016/j.ijbiomac.2023.123885

Cited by 16 publications

(11 citation statements)

References 78 publications

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“…79 Direct addition of Ziziphora clinopodioides extract into the cellulose acetate electrospun membrane increased hydrophobicity and reduced WVP and weakened the tensile strength and Young's modulus of the membrane whereas encapsulation of the extract into the chitosan NPs and then loading into the membrane showed opposite effects. 80 While the neat CA membrane showed no biocidal activity, the membrane loaded with this extract showed 11−12 mm zone inhibitions against E. coli and S. aureus. Cellulose acetate films incorporated with different carotenoids (lycopene, norbixin, and zeaxanthin) were applied to protect vitamin B2 in foods from photo-oxidation.…”

Section: ■ Cellulose-based Filmsmentioning

confidence: 92%

“…The addition of 0.5–1 wt % geranyl acetate (a natural ester with antimicrobial properties with low cytotoxicity obtained from different plants) to the cellulose acetate films endowed antibacterial activity against S. aureus and E. coli bacteria and antifungal activity against Aspergillus flavus without affecting the mechanical properties of the films . Direct addition of Ziziphora clinopodioides extract into the cellulose acetate electrospun membrane increased hydrophobicity and reduced WVP and weakened the tensile strength and Young’s modulus of the membrane whereas encapsulation of the extract into the chitosan NPs and then loading into the membrane showed opposite effects . While the neat CA membrane showed no biocidal activity, the membrane loaded with this extract showed 11–12 mm zone inhibitions against E. coli and S. aureus .…”

Section: Cellulose-based Filmsmentioning

confidence: 99%

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Recent Advances in Functional Cellulose-based Films with Antimicrobial and Antioxidant Properties for Food Packaging

Shen,

Seidi,

Ahmad

et al. 2023

J. Agric. Food Chem.

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The packaging of food plays a crucial role in food preservation worldwide. However, traditional packaging systems are passive layers with weak efficiency in protecting the food quality. Therefore, packaged foods are gradually spoiled due to the oxidation and growth of microorganisms. Additionally, most of the commercial packaging films are made of petroleum-based materials which raise environmental concerns. Accordingly, the development of eco-friendly natural-derived active packaging systems has increased the attention of scientists. Cellulose as the most abundant polysaccharide on earth with high biocompatibility, no toxicity, and high biodegradability has extensively been applied for the fabrication of packaging films. However, neat cellulose-based films lack antioxidant and antimicrobial activities. Therefore, neat cellulose-based films are passive films with weak food preservation performance. Active films have been developed by incorporating antioxidants and antimicrobial agents into the films. In this review, we have explored the latest research on the fabrication of antimicrobial/antioxidant cellulose-based active packaging films by incorporating natural extracts, natural polyphenols, nanoparticles, and microparticles into the cellulose-based film formulations. We categorized these types of packaging films into two main groups: (i) blend films which are obtained by mixing solutions of cellulose with other soluble antimicrobial/antioxidant agents such as natural extracts and polyphenols; and (ii) composite films which are fabricated by dispersing antimicrobial/antioxidant nano- or microfillers into the cellulose solution. The effect of these additives on the antioxidant and antimicrobial properties of the films has been explained. Additionally, the changes in the other properties of the films such as hydrophilicity, water evaporation rate, and mechanical properties have also been briefly addressed.

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Section: ■ Cellulose-based Filmsmentioning

confidence: 92%

Section: Cellulose-based Filmsmentioning

confidence: 99%

Recent Advances in Functional Cellulose-based Films with Antimicrobial and Antioxidant Properties for Food Packaging

Shen,

Seidi,

Ahmad

et al. 2023

J. Agric. Food Chem.

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“…To date, the most prevalent, convenient, and effective solutions for developing such SAFP materials involve a blending and loading technology, where biopolymers serve as substrates, 47,48,54,[136][137][138]141,171,172 a microencapsulation embedding technology utilizing biopolymers or specific inorganic compounds as carriers, 41,53,63,102,124,127,135 and a combination of these two technologies. 30,125,126,128,142,173 It is worth mentioning that adjusting the type, 41,48,63 proportion, 54,63,171 and mixing order 41,58 of raw materials in the preparation process can indirectly regulate the release of antimicrobial agents and antimicrobial effects of the resulting SAFP.…”

Section: Safp Materials Thatmentioning

confidence: 99%

“…Therefore, when plant-derived agents are combined with biopolymers, specific technologies are required to improve their stability, control their release profile, and achieve long-lasting antimicrobial effects. To date, the most prevalent, convenient, and effective solutions for developing such SAFP materials involve a blending and loading technology, where biopolymers serve as substrates, ,,,− ,,, a microencapsulation embedding technology utilizing biopolymers or specific inorganic compounds as carriers, ,,,,,, and a combination of these two technologies. ,,,,, …”

Section: Safp Containing Natural Antimicrobial Agentsmentioning

confidence: 99%

“…These agents can be directly added to the substrate or incorporated into biopolymers or porous inorganic materials through grafting, encapsulation, or loading, forming microcapsules that are then added to the substrate. The use of prefabricated microcapsules offers greater control over slow-release or controlled-release, avoiding sudden or explosive bursts of antimicrobial agents and prolonging the antimicrobial period. ,,− The prefabricated substrate/carrier blended with antimicrobial agents requires further processing, typically achieved through solution casting, coating, electrospinning, extrusion molding, or papermaking techniques, which are simple, cost-effective, and widely utilized preparation methods (Figure ). These processes yield various forms of SAFP, including coatings, films, mats, gels, paper, and cardboard (Figure ).…”

Section: Major Design Strategies and Product Forms Of Safpmentioning

confidence: 99%

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Recent Advances in Sustainable Antimicrobial Food Packaging: Insights into Release Mechanisms, Design Strategies, and Applications in the Food Industry

Zhao

Zhang

et al. 2023

J. Agric. Food Chem.

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In response to the issues of foodborne microbial contamination and carbon neutrality goals, sustainable antimicrobial food packaging (SAFP) composed of renewable or biodegradable biopolymer matrices with ecofriendly antimicrobial agents has emerged. SAFP offers longer effectiveness, wider coverage, more controllability, and better environmental performance. Analyzing SAFP information, including the release profile of each antimicrobial agent for each food, the interaction of each biomass matrix with each food, the material size, form, and preparation methods, and its service quality in real foods, is crucial. While encouraging reports exist, a comprehensive review summarizing these developments is lacking. Therefore, this review critically examines recent releaseantimicrobial mechanisms, kinetics models, preparation methods, and key regulatory parameters for SAFPs based on slow-or controlled-release theory. Furthermore, it discusses fundamental physicochemical characteristics, effective concentrations, advantages, release approaches, and antimicrobial and preservative effects of various materials in food simulants or actual food. Lastly, inadequacies and future trends are explored, providing practical references to regulate the movement of active substances in different media, reduce the reliance on petrochemical-based materials, and advance food packaging and preservation technologies.

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PVA@tea tree oil‐emulsion core–shell microfiber membranes for extending the shelf life of fruits

Dai,

Liu,

Wang

et al. 2023

J of Applied Polymer Sci

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In this work, a temperature‐regulating and antimicrobial–antioxidant fiber membrane was fabricated using coaxial electrospinning technology. The tea tree oil (TTO) emulsion used as the core solution, polyvinyl alcohol (PVA) as the shell solution for coaxial electrospinning, has been demonstrated. Compared with the original PVA fibers, the average diameter of the fibers is increased after coaxial electrospinning, and the diameter increases with the core flow rate. The diameters corresponding to core flow rates of 0.05, 0.1, and 0.15 mL/h are 561, 597, and 849 nm, respectively. Via in vitro release experiment demonstrated that the quantity of TTO released from the composite membrane increased with the elevation of temperature. The inclusions TTO and polyethylene glycol give the film excellent antibacterial–antioxidant properties and a delayed thermal response. More intriguingly, core–shell fiber membranes containing TTO in the core part are effective in slowing down the formation of oxidation spots on the surface of banana compared with pure PVA membranes. Seven days after wrapping bananas with different membranes, the surface of banana in pure PVA film was full of oxidized spots, whereas banana in PVA core–shell fibers showed only one obvious spot.

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An eco-friendly chitosan/cellulose acetate hybrid nanostructure containing Ziziphora clinopodioides essential oils for active food packaging applications

Cited by 16 publications

References 78 publications

Recent Advances in Functional Cellulose-based Films with Antimicrobial and Antioxidant Properties for Food Packaging

Recent Advances in Functional Cellulose-based Films with Antimicrobial and Antioxidant Properties for Food Packaging

Recent Advances in Sustainable Antimicrobial Food Packaging: Insights into Release Mechanisms, Design Strategies, and Applications in the Food Industry

PVA@tea tree oil‐emulsion core–shell microfiber membranes for extending the shelf life of fruits

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