Research Topic: fruit preservation

Ultrasound-assisted development and characterization of novel polyphenol-loaded pullulan/trehalose composite films for fruit preservation

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Researchers developed a new type of edible food wrap made from natural plant materials (tea polyphenols, pullulan, and trehalose) treated with ultrasound. This wrap is stronger, more protective against oxygen and moisture, and kills harmful bacteria like E. coli and Staphylococcus aureus. When used to wrap fresh apples and pears, it significantly extended their shelf life by reducing browning and decay.

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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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Application of a Pickering Emulsion Stabilized by Zein and Cellulose Nanocrystalline Composite Particles to Preserve Kiwifruit

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Researchers developed a new type of protective coating for kiwifruit that prevents fungal decay and extends shelf life. This coating is made from natural materials (corn protein and cellulose nanoparticles) combined with carvacrol, a natural antimicrobial compound. The coating is stable, effective, and safe for human consumption, offering a promising alternative to traditional chemical fungicides for preserving fresh fruits.

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Biocontrol Potential of a Mango-Derived Weissella paramesenteroides and Its Application in Managing Strawberry Postharvest Disease

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Researchers discovered a beneficial bacterium called Weissella paramesenteroides that naturally lives on mango fruit and can protect strawberries from fungal diseases during storage. The bacterium works by releasing special chemicals in the air called volatile organic compounds that prevent mold growth without direct contact. This provides a natural, food-safe alternative to synthetic fungicides for keeping fresh fruit fresher longer.

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