Research Keyword: 3D bioprinting

Research on Development and Challenges of Forest Food Resources from an Industrial Perspective—Alternative Protein Food Industry as an Example

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This research examines how forests can provide alternative protein sources to help solve global hunger and food security issues. Scientists are developing new foods from insects, plants, fungi, and laboratory-grown meat, with markets growing rapidly and companies making significant investments. However, challenges remain including high production costs, consumer concerns about safety and taste, and varying regulations across countries that complicate bringing these products to market globally.

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Research on Development and Challenges of Forest Food Resources from an Industrial Perspective—Alternative Protein Food Industry as an Example

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This research examines how forests can provide alternative protein sources including insects, plants, fungi, and lab-grown meat to help feed our growing global population. The market for these forest-based proteins is rapidly expanding, with insect protein reaching USD 3.2 billion in 2023 and plant-based alternatives growing even faster. However, challenges remain including high production costs, consumer skepticism, and varying regulations across countries that must be overcome for these innovations to reach mainstream markets.

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Study on the Properties and Design Applications of Polyester–Cotton Matrix Mycelium Composite Materials

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Researchers developed eco-friendly composite materials by growing oyster mushroom mycelium on waste polyester-cotton textile fibers. The optimal blend was 65% polyester and 35% cotton, which balanced strength, water resistance, and ability to break down in soil. These materials could replace foam plastics in packaging and home products while helping solve the problem of textile waste.

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Study on the Properties and Design Applications of Polyester–Cotton Matrix Mycelium Composite Materials

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Scientists have developed a new eco-friendly material by growing mushroom mycelium on polyester-cotton textile waste, creating a biodegradable composite that could replace plastic foams. The best results came from a blend of 65% polyester and 35% cotton, which provided a good balance of strength, moisture resistance, and the ability to break down naturally in soil. This innovation offers a promising solution to the massive problem of textile waste, which currently piles up in landfills around the world.

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