VTT aims at industrial-scale production of fungal "leather"
Animal skin is an excellent material, but even without the ethical concerns around killing animals for the skin, the leather tanning process causes significant chromium emissions that are damaging to the environment and human health. Synthetic leathers also burden the environment and fail to match the quality and durability of animal leather. Therefore, new bio-based replacement materials are sought for leather. VTT uses fungal mycelium to produce skinlike material that would be suited for industrial production.
For centuries, fungi and polypores have been used for making skinlike fabrics and accessories in Europe. Designers and researchers are now reviving this tradition to find sustainable alternatives to replace leather.
“VTT has been studying fungi and other microbes and their use in industrial biotechnology for quite a while. In laboratory conditions, fungal mycelium can be used to rapidly produce skinlike material with quite similar feel and tensile strength as animal skin,” said Senior Scientist Géza Szilvay from VTT.
Some items made of fungus-based leather are already being produced for commercial markets. However, the bottleneck lies in industrial-scale production. “We have focused on scalable bioproduction methods and the use of industrial processes in the production of our material. The results have been promising,” Szilvay said.
Organic waste used as raw material
The production process of fungus-based leather is a an example of circular economy at work - organic waste can be used as raw material for synthetic leather. Fungal mycelium can produce skinlike material out of, for example, food waste.
VTT will continue to develop the properties of fungus-based leather. “Next, we want to add new properties to the material and improve, for example, its wear resistance with the help of biotechnology. We have already made materials out of fungal mycelium that produce new kind of biopolymers within the material,” Szilvay added.
iBEX programme
The new material was developed as part of VTT’s iBEX 2019 programme. The programme is an example of a new way of making applied research more solution-oriented, and it currently includes 11 research projects.
The projects tackle some of the great global challenges and seek radical solutions to them in collaboration with the industry and the surrounding society. The iBEX programme is a runway for innovations that will change the world. In November 2019, Plant Breath, a research project developed under the iBEX program, won the €100,000 prize in the final of the Slush and Skolar Research Ideas Pitch Contest.
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