mycelium-based materials

The beauty and the morbid: fungi as source of inspiration in contemporary art

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This article explores how artists are using fungi and fungal science as inspiration and material for contemporary artwork. From clothing made of mycelium to installations exploring decay and renewal, artists are discovering that fungi offer unique possibilities for addressing modern environmental and social issues. The paper highlights how collaboration between artists and scientists can lead to innovative solutions and new ways of thinking about materials, sustainability, and the relationship between life and death.

Artificial Neural Network Prediction of Mechanical Properties in Mycelium-Based Biocomposites

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Scientists developed an artificial intelligence model that can predict how strong and durable mushroom-based composite materials will be. These composites are made by growing mushroom mycelium (fungal threads) through wood particles and other plant materials, creating an eco-friendly alternative to synthetic materials. The AI model learns from physical measurements and can accurately predict mechanical properties, potentially reducing the need for extensive testing and helping design better sustainable materials.

Binder Jetting 3D Printing of Biomass–Fungi Composite Materials: A Preliminary Experimental Study

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Scientists have developed a new 3D printing method to create environmentally-friendly materials made from agricultural waste and fungi. Instead of using traditional plastic materials that take years to decompose, these biomass-fungi composites break down naturally. The new binder jetting printing process is faster and more precise than previous methods, making it more practical for manufacturing products like packaging, furniture, and building materials.

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 developed a leather-like material made from mushroom mycelium by treating it with chemical cross-linkers similar to those used in traditional leather tanning. The best results came from using glutaraldehyde, which chemically bonded to the mycelium’s proteins and carbohydrates, creating a stronger and more durable material. While the mycelium leather now has comparable strength to conventional leather, it needs to be more flexible. This research offers a more environmentally sustainable alternative to animal leather.

Research Keyword: mycelium-based materials

The beauty and the morbid: fungi as source of inspiration in contemporary art

Artificial Neural Network Prediction of Mechanical Properties in Mycelium-Based Biocomposites

Binder Jetting 3D Printing of Biomass–Fungi Composite Materials: A Preliminary Experimental Study

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