Research Keyword: biodegradable composites

Fungal Innovations—Advancing Sustainable Materials, Genetics, and Applications for Industry

mycolabadmin

Fungi can be engineered to create sustainable, eco-friendly materials that could replace traditional plastics and leather. Scientists are using advanced genetic tools to control how fungi grow and what they produce, enabling the creation of customized materials with specific properties. These fungal-based materials are biodegradable, require less water and energy to produce, and show promise for applications in packaging, clothing, and building materials. With improved manufacturing processes and genetic engineering, fungi could revolutionize how we make everyday products.

Read More »

3D printed gyroid scaffolds enabling strong and thermally insulating mycelium-bound composites for greener infrastructures

mycolabadmin

Scientists developed a new eco-friendly building material by growing mushroom mycelium on specially designed 3D-printed scaffolds made from wood and plant-based plastic. These mycelium bricks are stronger, better insulators, and more fire-resistant than traditional bricks or foam insulation, while being completely biodegradable. This breakthrough could help reduce the construction industry’s massive carbon footprint and provide a sustainable alternative to harmful conventional building materials.

Read More »

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

mycolabadmin

Researchers developed a new 3D printing method called binder jetting to create eco-friendly materials made from agricultural waste and fungi. The fungi’s root-like structures naturally bind plant particles together, creating a biodegradable alternative to plastic. This method produces complex shapes with better precision than previous techniques and could revolutionize sustainable manufacturing for packaging and furniture.

Read More »
Scroll to Top