fungal bioprocessing

Temporal characterization of biocycles of mycelium-bound composites made from bamboo and Pleurotus ostreatus for indoor usage

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Scientists created a sustainable building material by growing oyster mushroom fungus on bamboo fibers. The material was strong enough for packaging and could be composted after use to enrich soil, completing a full cycle in about 7 months. By adding a natural beeswax coating, the material lasted longer while remaining completely biodegradable. This proof-of-concept demonstrates how fungal materials could replace synthetic plastics in a circular economy.

Upcycling end-of-life mattresses into sustainable insulation materials through development of mycelium based biocomposites

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Scientists developed an innovative way to recycle old mattresses by growing fungus on shredded mattress waste, creating a new insulation material. The resulting biocomposite is extremely heat-resistant, remaining stable even at temperatures above 990°C, and has insulation properties comparable to commercial products. This approach converts waste mattresses into valuable building materials while promoting environmental sustainability through circular economy principles.

Research Topic: fungal bioprocessing

Temporal characterization of biocycles of mycelium-bound composites made from bamboo and Pleurotus ostreatus for indoor usage

Upcycling end-of-life mattresses into sustainable insulation materials through development of mycelium based biocomposites