essential oils – mycolab.ai

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.

Optimization and antifungal efficacy against brown rot fungi of combined Salvia rosmarinus and Cedrus atlantica essential oils encapsulated in Gum Arabic

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Researchers have developed a natural product that protects wood from fungal decay by combining oils from rosemary and cedar trees and encapsulating them in Gum Arabic using specialized techniques. This nanoencapsulation process creates tiny protective particles that are much more stable and effective than the oils alone. When tested against wood-damaging fungi, this product showed remarkable antifungal power comparable to commercial fungicides. This innovation offers a safe, environmentally-friendly alternative to synthetic wood preservatives for building and construction applications.

Development of Active Antibacterial CEO/CS@PLA Nonwovens and the Application on Food Preservation

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Researchers created special biodegradable packaging material made from corn-based plastic combined with chitosan (from crab shells) and cinnamon oil. When placed over fresh strawberries, this material killed 99.99% of harmful bacteria and significantly extended shelf life. The packaging reduced strawberry decay, weight loss, and spoilage while maintaining nutritional quality.

Nanoemulsion formulation of lemongrass essential oil using Pseudomonas-derived rhamnolipids for targeted phytopathogen suppression

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This study developed a nano-sized formulation of lemongrass oil stabilized with naturally-derived rhamnolipid surfactant to fight plant fungal diseases. The formulation successfully inhibited the growth of three major plant pathogens and remained stable during storage. This bio-based approach offers farmers an environmentally-friendly alternative to synthetic chemical fungicides for protecting crops.

Edible Coating Based on Konjac glucomannan Loading Ocimum gratissimum Essential Oil for Postharvest Preservation of Orange

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Researchers developed a special edible coating made from konjac glucomannan and basil essential oil that can be applied to oranges to keep them fresh longer. The coating acts as a protective barrier that slows down moisture loss and microbial growth while allowing the fruit to breathe. When applied to Mandarin oranges, this coating extended their shelf life by 8 days, kept them firmer, and reduced spoilage compared to uncoated oranges.

Alginate Edible Films Containing Essential Oils: Characterization and Bioactive Potential

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Scientists created edible films made from alginate (a natural material from seaweed) mixed with essential oils from plants like oregano, thyme, and rosemary. These films could replace plastic packaging for food and have natural antibacterial and antioxidant properties. The oregano oil film worked best, completely stopping the growth of harmful bacteria and fungi while protecting food from oxidative damage.

Essential Oil Nanoemulsions—A New Strategy to Extend the Shelf Life of Smoothies

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This review explores how essential oil nanoemulsions could naturally preserve smoothies and extend their freshness. Essential oils have antimicrobial and antioxidant properties but taste and smell too strong at effective doses. Nanoemulsions—tiny oil droplets encapsulated in water—solve this problem by being more effective at lower concentrations while maintaining good taste, making them a promising natural alternative to chemical preservatives.

The Global Secondary Metabolite Regulator AcLaeA Modulates Aspergillus carbonarius Virulence, Ochratoxin Biosynthesis, and the Mode of Action of Biopesticides and Essential Oils

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Grapes can be infected with a fungus called Aspergillus carbonarius that produces a dangerous toxin called ochratoxin A. Scientists studied a regulatory gene called AcLaeA that controls toxin production in this fungus. By deleting this gene, the fungus became less virulent and produced much less toxin. Natural products like cinnamon and thyme oils, along with commercial biocontrol products, were found to reduce toxin production by suppressing this regulatory gene, offering promising natural alternatives to chemical fungicides.

An implementation framework for evaluating the biocidal potential of essential oils in controlling Fusarium wilt in spinach: from in vitro to in planta

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Researchers tested four common essential oils (thyme, oregano, marjoram, and tea tree) to see if they could stop a dangerous fungal disease in spinach plants. They found that thyme and oregano oils worked best at killing the fungus in laboratory tests and when applied to spinach seeds in the greenhouse, with thyme oil reducing disease by over half without harming the plants.

Synergistic potential and apoptosis induction of Bunium persicum essential oil and its pure components, cuminaldehyde and γ-terpinene, in combination with fluconazole on Candida albicans isolates: in vitro and in silico evaluation

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Researchers tested a spice-derived essential oil called Bunium persicum and two of its active compounds to see if they could work better with the antifungal drug fluconazole against drug-resistant yeast infections. They found that one component called cuminaldehyde was particularly effective and worked synergistically with fluconazole, meaning the combination was more powerful than either treatment alone. These natural compounds could potentially help treat fungal infections that no longer respond to standard medications, offering a promising approach using plant-based remedies alongside conventional drugs.

Research Topic: essential oils