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61,005 resultsShowing papers similar to Safely Dissolvable and Healable Active Packaging Films Based on Alginate and Pectin
ClearEdible Films Based on Fish Gelatin and Soluble Soybean Polysaccharide Enriched with Tea Polyphenol for Active Food Packaging
Researchers developed biodegradable edible films combining fish gelatin and soluble soybean polysaccharide enriched with natural additives, finding that the films showed good mechanical and barrier properties as sustainable alternatives to conventional plastic food packaging.
Functional Nanocellulose, Alginate and Chitosan Nanocomposites Designed as Active Film Packaging Materials
Researchers formulated and characterized 25 nanocellulose-based composite films using cellulose nanocrystals, nanofibrils, and bacterial nanocellulose combined with chitosan and alginate, finding that combinations with chitosan generally provided the best mechanical and barrier properties for potential food packaging use.
Citric acid cross-linked regenerated bacterial cellulose as biodegradable and biocompatible film for food packaging
Researchers developed biodegradable packaging films from regenerated bacterial cellulose cross-linked with citric acid. The films showed good mechanical strength, biocompatibility, and biodegradability. Bacterial cellulose-based packaging could serve as a sustainable alternative to petroleum-based plastic films and reduce microplastic generation from food packaging.
Biodegradable biopolymers for active packaging: demand, development and directions
This review examines how biodegradable biopolymers can be used for active food packaging, addressing both plastic waste and food waste challenges while meeting industry demand for sustainable packaging solutions.
Current trends in biopolymers for food packaging: a review
This review covers the latest developments in biopolymer-based food packaging, including biodegradable films, edible coatings, and active or smart packaging systems. Researchers found that while these sustainable alternatives show promise, they still face challenges in matching the moisture, heat, and barrier properties of conventional petroleum-based plastics. The study highlights ongoing efforts to improve these materials so they can realistically replace traditional plastic packaging.
Edible and Functionalized Films/Coatings—Performances and Perspectives
This review covers recent advances in edible and biodegradable food films and coatings made from biological materials, examining their performance properties and potential as sustainable replacements for conventional petroleum-based food packaging.
Incorporation of Chitosan-Stabilized Green Tea Pickering Nanoemulsion into Hybrid Semi-Refined Carrageenan-Gelatin Films: Stability, Antioxidant Activity, and Performance in Active Food Packaging
Researchers developed sustainable hybrid films made from semi-refined carrageenan and gelatin enriched with chitosan-stabilized green tea nanoemulsions as an alternative to conventional plastic packaging. The films demonstrated good stability, antioxidant activity, and improved mechanical properties for active food packaging applications. The study offers a biodegradable approach to reducing reliance on plastic packaging materials in food preservation.
A Review on Biopolymer-Based Biodegradable Film for Food Packaging: Trends over the Last Decade and Future Research
This systematic review explores biodegradable packaging made from natural materials like starch and proteins as alternatives to conventional plastics. Reducing plastic packaging is important because traditional plastics break down into microplastics that contaminate food and the environment.
Edible Biopolymers-Based Materials for Food Applications—The Eco Alternative to Conventional Synthetic Packaging
This review examines edible biopolymer-based packaging materials including proteins, polysaccharides, and lipids as eco-friendly alternatives to conventional synthetic packaging, evaluating their mechanical properties, barrier performance, and biodegradability for food applications.
Biopolymer-based functional films for packaging applications: A review
This review examined recent advances in biopolymer-based functional films for food packaging, covering active and intelligent packaging approaches that incorporate functional ingredients to preserve food quality, improve safety, and extend shelf life with minimal environmental impact.
Valorization of Cork Stoppers, Coffee-Grounds and Walnut Shells in the Development and Characterization of Pectin-Based Composite Films: Physical, Barrier, Antioxidant, Genotoxic, and Biodegradation Properties
Researchers developed biodegradable composite films using pectin combined with waste materials from cork stoppers, coffee grounds, and walnut shells as a sustainable alternative to plastic packaging. The films showed antioxidant properties, were non-genotoxic, and biodegraded effectively in both soil and seawater within weeks. The study demonstrates that food industry and agricultural waste can be repurposed into functional, environmentally friendly packaging materials.
Biofilms Production from Avocado Waste
Researchers developed biofilms from starch and cellulose extracted from avocado peels and seeds as potential biodegradable food packaging materials. These plant-based packaging alternatives could replace petroleum-based plastics that break down into persistent microplastics.
Comprehensive Review of Polysaccharide-Based Materials in Edible Packaging: A Sustainable Approach
This review examined polysaccharide-based edible packaging materials as sustainable alternatives to conventional plastic packaging, highlighting their biodegradability, biocompatibility, and antimicrobial properties for food preservation.
An Antibacterial and Antioxidant Food Packaging Film Based on Amphiphilic Polypeptides‐Resveratrol‐Chitosan
Researchers developed a biodegradable food packaging film made from natural materials including chitosan and resveratrol that kills bacteria and prevents food spoilage. Unlike conventional plastic packaging that breaks down into microplastics, this film is made entirely from biological materials and poses no microplastic contamination risk. This type of eco-friendly alternative could help reduce the microplastics that enter the food supply through traditional plastic packaging.
Biodegradable Packaging Materials for Foods Preservation: Sources, Advantages, Limitations, and Future Perspectives
This review examines biodegradable packaging materials derived from natural sources as alternatives to conventional petroleum-based plastics for food preservation. Researchers found that materials made from polysaccharides, proteins, and lipids can effectively extend food shelf life while being more environmentally friendly. The study acknowledges that cost and performance limitations remain, but highlights recent advances in combining these natural materials with antimicrobial and antioxidant agents to improve their practical viability.
Stability Studies, Biodegradation Tests, and Mechanical Properties of Sodium Alginate and Gellan Gum Beads Containing Surfactant
Researchers developed sodium alginate and hydroxypropyl methylcellulose composite films as biodegradable alternatives to conventional wet wipes, evaluating their stability, mechanical properties, and biodegradation behavior to address the plastic waste problem from single-use hygiene products.
Use of Alginates as Food Packaging Materials
This review covers the use of alginate-based materials as food packaging, examining how alginate films protect food from physical damage, oxidation, moisture, and microbial contamination. Alginates are highlighted as a natural, biodegradable polymer alternative that avoids the microplastic pollution associated with conventional synthetic food packaging.
Agar Biopolymer Films for Biodegradable Packaging: A Reference Dataset for Exploring the Limits of Mechanical Performance
Researchers developed a reference dataset for agar biopolymer films as biodegradable packaging alternatives, systematically testing mechanical performance with different plasticizer concentrations and providing a design-of-experiments framework to help optimize film properties for practical packaging applications.
Recent Advances in Biopolymers for Biomedical and Packaging Applications
This review examines recent advances in biopolymers -- including polysaccharides, proteins, and synthetic biopolymers -- for applications in biomedical and packaging fields. The authors highlight the appeal of biopolymers as sustainable, biodegradable, and biocompatible alternatives to conventional petroleum-based materials.
Bio-Adhesives Combined with Lotus Leaf Fiber to Prepare Bio-Composites for Substituting the Plastic Packaging Materials
Researchers prepared biodegradable composite packaging materials by combining natural bio-adhesives with lotus leaf fiber, testing mechanical and thermal properties. Natural fiber composites offer an alternative to petroleum-based plastic packaging that would not generate persistent microplastic pollution.
PLA-Chitosan Composites as Sustainable Alternatives for Menstrual Pads
Researchers developed biodegradable PLA-chitosan composite films as an environmentally friendly alternative to polyethylene in menstrual pads, demonstrating that the composite maintained absorbency and mechanical integrity while offering antimicrobial properties and full biodegradability.
Eco-Friendly Bioplastic Material Development Via Sustainable Seaweed Biocomposite
Researchers developed a seaweed-based bioplastic film using Gracilaria edulis algae combined with starch, glycerol, and chitosan. The resulting material showed mechanical properties comparable to starch-based commercial plastics, good biodegradability, and compostability, and showed potential for use in low-moisture food packaging. This work contributes to the effort to replace petroleum-based plastics with renewable alternatives that break down in the environment rather than persisting as microplastic pollution.
Recent advancements in alginate-based films for active food packaging applications
This review covers advances in alginate-based films as alternatives to plastic food packaging, which could help reduce the amount of plastic entering the environment. While not directly about microplastic health effects, developing effective biodegradable packaging is one strategy to reduce the flow of plastics that eventually break down into microplastics. These plant-based films could help decrease the overall microplastic burden in food and the environment.
Films from Starch Inclusion Complexes with Bioactive Compounds as Food Packaging Material
Researchers created biodegradable food packaging films from starch combined with the bioactive compounds carvacrol and ascorbic acid. The films demonstrated antioxidant and antimicrobial properties while being mechanically suitable for packaging applications. The study presents a promising alternative to conventional plastic food packaging that could both preserve food and reduce plastic waste.