Fungal Species:  Chlorella vulgaris

3D Bioprinting of Microbial-Based Living Materials for Advanced Energy and Environmental Applications

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This research explores how 3D printing technology can be used to create living materials containing microorganisms for environmental cleanup and sustainable energy production. These materials can help address pollution and energy challenges in more efficient and environmentally friendly ways. Impacts on everyday life: – Development of more effective water and soil pollution treatment methods – Creation of sustainable building materials that are more environmentally friendly – New ways to generate clean electricity and biofuels – Improved methods for environmental monitoring and pollution detection – Potential solutions for coral reef restoration and marine ecosystem preservation

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Cocultivation of White-Rot Fungi and Microalgae in the Presence of Nanocellulose

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This research explored how certain fungi and algae work together when grown in the presence of nanocellulose, a material derived from plant cells. The study found that these organisms can not only survive together but can actually enhance the production of important enzymes that break down plant material. This has several practical implications for everyday life: • Could lead to more efficient and environmentally friendly biofuel production • May help develop new ways to break down plant waste materials • Shows potential for creating sustainable materials using living organisms • Could help reduce dependence on fossil fuels through bio-based alternatives • Demonstrates new possibilities for 3D printing with living organisms

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