Research Topic: active packaging

Preparation and Characterization of a Novel Artemisia Oil Packaging Film and Its Application in Mango Preservation

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Researchers developed a new type of edible film made from soybean protein and gelatin infused with Artemisia oil to preserve mangoes longer after harvest. This natural, biodegradable packaging film helps prevent mango spoilage by blocking light, reducing water loss, and stopping fungal growth that causes rot. When used to wrap mangoes, the film significantly extended shelf life and maintained freshness better than unwrapped fruit, offering an environmentally friendly alternative to conventional plastic packaging.

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Advances and Challenges in Smart Packaging Technologies for the Food Industry: Trends, Applications, and Sustainability Considerations

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Smart food packaging is evolving from simple containers into intelligent systems that actively protect food and communicate its freshness to consumers. These packages use special materials, embedded sensors, and smart labels to monitor temperature, detect spoilage early, and provide real-time tracking information. While these technologies promise fresher food, longer shelf life, and reduced waste, they face challenges including cost, environmental impact, and privacy concerns that need to be addressed for widespread adoption.

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Renovation of Agro-Waste for Sustainable Food Packaging: A Review

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This review explores how agricultural waste can be transformed into eco-friendly food packaging materials. Researchers are finding ways to extract valuable compounds like cellulose from crop residues and chitin from shrimp shells to create biodegradable packaging films that preserve food while reducing environmental pollution. These sustainable packaging alternatives perform as well as conventional plastics while being completely biodegradable, representing an important step toward a circular economy and reducing agricultural waste.

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Natamycin-Loaded Ethyl Cellulose/PVP Films Developed by Microfluidic Spinning for Active Packaging

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Researchers developed special thin films that can help preserve fruits and vegetables by preventing mold growth. These films are made by combining two biodegradable polymers with an antimicrobial substance called natamycin using a new spinning technique. The films successfully inhibited gray mold, which causes major spoilage in strawberries, tomatoes, and other crops. This technology offers a promising way to extend shelf life and reduce food waste.

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pH-responsive imine-chitosan-based intelligent controlled-release packaging films with transformable antimicrobial modes from defense to attack

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Researchers developed a smart food packaging film that fights bacteria and fungi in two different ways depending on acidity levels. When stored with neutral pH foods, the film’s surface prevents microbes from sticking to it. When the food becomes more acidic (like in tomato juice), the film releases antimicrobial compounds that actively kill the microorganisms. Tests showed it effectively preserved cherry tomatoes and tomato juice while blocking harmful UV light.

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