Material Science and Biotechnology

Cross-linking impacts the physical properties of mycelium leather alternatives by targeting hydroxyl groups of polysaccharides and amino groups of proteins

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Scientists have developed a leather-like material grown from mushroom mycelium (the root structure of fungi) that can match the strength of animal leather through a process called cross-linking or tanning. They tested different cross-linking chemicals—both synthetic ones like glutaraldehyde and natural plant extracts—and found that these chemicals improve the material’s strength and durability. The best results came from treating the mycelium with a low concentration of glutaraldehyde, which made it nearly as strong as real leather while using a sustainable, environmentally-friendly process.

Quantification of fungal biomass in mycelium composites made from diverse biogenic side streams

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Scientists developed a new method to measure how much fungus is in mycelium-based composite materials by analyzing fungal DNA. They tested three types of fungus with eight different agricultural waste materials to see which combinations made the strongest composites. The results show that the amount of fungus needed and the resulting material quality depends on both which fungus is used and which waste material is chosen, with some combinations needing as little as 5% fungus while others required much more.

Research Topic: Material Science and Biotechnology

Cross-linking impacts the physical properties of mycelium leather alternatives by targeting hydroxyl groups of polysaccharides and amino groups of proteins

Quantification of fungal biomass in mycelium composites made from diverse biogenic side streams