Research Topic: mycelium biocomposites

From purposeless residues to biocomposites: A hyphae made connection

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Researchers developed eco-friendly packaging materials using mushroom mycelium and agricultural waste from fruit and sugar cane processing. Two native Colombian fungal species were grown on leftover fruit peels and bagasse to create lightweight, biodegradable composites. From just 50 kilograms of fruit peel waste, nearly 1,840 cups can be manufactured, offering a sustainable alternative to plastic packaging that naturally decomposes after use.

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Waste Rose Flower and Lavender Straw Biomass—An Innovative Lignocellulose Feedstock for Mycelium Bio-Materials Development Using Newly Isolated Ganoderma resinaceum GA1M

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Researchers developed eco-friendly building materials by growing mushroom mycelium (Ganoderma resinaceum) on waste residues from rose and lavender essential oil production. These waste biomasses, typically discarded or burned, were successfully converted into biocomposites with properties comparable to hempcrete and other sustainable materials. The resulting mycelium-based materials are completely natural, biodegradable, and possess antimicrobial and aromatic properties, offering a promising sustainable alternative to synthetic materials.

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Characterization of Self-Growing Biomaterials Made of Fungal Mycelium and Various Lignocellulose-Containing Ingredients

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Scientists developed environmentally-friendly foam-like materials by growing mushroom mycelium (the root-like network of fungi) on agricultural waste like hemp and sawdust. These natural composites are strong, biodegradable, and can be used for packaging or insulation instead of plastic foam. However, they absorb water easily and can develop mold if exposed to moisture, so they need protective coatings for some applications.

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Textile residue-based mycelium biocomposites from Pleurotus ostreatus

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Researchers successfully grew oyster mushroom mycelium on textile waste to create eco-friendly biocomposites that could replace plastic packaging. The fungus naturally binds textile fibers together, creating lightweight materials with useful structural properties. This approach transforms textile waste into sustainable products while addressing plastic pollution, offering a promising solution for converting unwanted clothing and fabric scraps into useful materials.

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