Research Topic: biobased polymers

Poly(lactic Acid): A Versatile Biobased Polymer for the Future with Multifunctional Properties—From Monomer Synthesis, Polymerization Techniques and Molecular Weight Increase to PLA Applications

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PLA is an eco-friendly plastic made from renewable resources like corn and sugarcane that can break down naturally, making it a sustainable alternative to regular petroleum-based plastics. Scientists have developed various methods to manufacture PLA with different strengths and properties suitable for medical devices, packaging, and other applications. The review examines how different catalysts and manufacturing techniques affect the quality and durability of PLA products, and discusses its potential to help reduce plastic pollution.

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Biobased Materials from Microbial Biomass and Its Derivatives

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This review explores how scientists are creating environmentally friendly materials using microorganisms like yeast, fungi, and bacteria instead of petroleum. These microbial-based materials can form flexible films suitable for food packaging and other applications. They are biodegradable, renewable, and can even be made from waste products generated by brewing and other industries. This approach offers a sustainable solution to plastic pollution while supporting a circular economy.

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Development of Leather-like Materials from Enzymatically Treated Green Kiwi Peel and Valorization of By-Products for Microbial Bioprocesses

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This research shows how kiwi fruit peels, normally discarded as waste, can be transformed into leather-like materials through enzymatic treatment. The study found that treating the peels with commercial enzymes produced flexible, durable films with properties comparable to traditional leather, while the leftover liquid from the treatment process could be used to grow industrially useful yeast cultures. This integrated approach demonstrates how agro-food waste can be completely recycled into valuable products, supporting sustainable manufacturing practices.

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