Add to ORKGFungal mycelium is an emerging bio-based material. Here, mycelium films are produced from liquid shaken cultures that have a Young's modulus of 0.47 GPa, an ultimate tensile strength of 5.0 MPa and a strain at failure of 1.5%. Treating the mycelial films with 0-32% glycerol impacts the material properties. The largest effect is observed after treatment with 32% glycerol decreasing the Young's modulus and the ultimate tensile strength to 0.003 GPa and 1.8 MPa, respectively, whereas strain at failure increases to 29.6%. Moreover, glycerol treatment makes the surface of mycelium films hydrophilic and the hyphal matrix absorbing less water. Results show that mycelium films treated with 8% and 16-32% glycerol classify as polymer- and elastomer-l...
Reducing the use of non-renewable resources is a key strategy of a circular economy. Mycelium-based ...
The mycelium composites composed of fungal mycelium and plant substrate are a practical alternative ...
Mycelium-Based Composites (MBCs) are innovative engineering materials made from lignocellulosic by-p...
Fungal mycelium is an emerging bio-based material. Here, mycelium films are produced from liquid sha...
Mycelium-based composites result from the growth of filamentous fungi on organic materials such as a...
The use of renewable resources to develop food contact materials, such as proteins or polysaccharide...
In the transition towards a world in dynamic equilibrium with its natural resources, oil and all oil...
Wood decay fungi (WDF) mostly include species in Agaricomycetes. Besides the chemical degradation, ...
Mycelium-composites has been emerging commercially as an environmentally sustainable alternative to ...
Fungi, and in particular wood decaying fungi, are being re-considered in the last few years as sourc...
Mycelium materials are made of fungi. By digesting waste to create a bio-composite of mycelium and t...
The usage of plastics in all aspects of human activity has resulted in substantial pollution since i...
Filamentous fungi colonize substrates by forming a mycelium. This network of hyphae can be used as a...
Demand for sustainable products is growing faster than ever before. Because of this, the development...
Due to the adaptability, durability, and affordability of synthetic polymers, their usage has been i...
Reducing the use of non-renewable resources is a key strategy of a circular economy. Mycelium-based ...
The mycelium composites composed of fungal mycelium and plant substrate are a practical alternative ...
Mycelium-Based Composites (MBCs) are innovative engineering materials made from lignocellulosic by-p...
Fungal mycelium is an emerging bio-based material. Here, mycelium films are produced from liquid sha...
Mycelium-based composites result from the growth of filamentous fungi on organic materials such as a...
The use of renewable resources to develop food contact materials, such as proteins or polysaccharide...
In the transition towards a world in dynamic equilibrium with its natural resources, oil and all oil...
Wood decay fungi (WDF) mostly include species in Agaricomycetes. Besides the chemical degradation, ...
Mycelium-composites has been emerging commercially as an environmentally sustainable alternative to ...
Fungi, and in particular wood decaying fungi, are being re-considered in the last few years as sourc...
Mycelium materials are made of fungi. By digesting waste to create a bio-composite of mycelium and t...
The usage of plastics in all aspects of human activity has resulted in substantial pollution since i...
Filamentous fungi colonize substrates by forming a mycelium. This network of hyphae can be used as a...
Demand for sustainable products is growing faster than ever before. Because of this, the development...
Due to the adaptability, durability, and affordability of synthetic polymers, their usage has been i...
Reducing the use of non-renewable resources is a key strategy of a circular economy. Mycelium-based ...
The mycelium composites composed of fungal mycelium and plant substrate are a practical alternative ...
Mycelium-Based Composites (MBCs) are innovative engineering materials made from lignocellulosic by-p...