As sustainability becomes a central focus in materials science, bioinspired catalysis and green chemistry are paving the way for eco-friendly and efficient methods of material synthesis. At the Global Conference on Materials Science and Advanced Manufacturing (MSAM – 2026), we bring attention to these groundbreaking techniques that harness nature's principles to drive more sustainable and innovative material production.

Bioinspired Catalysis and Green Chemistry in Material Synthesis explores how understanding natural processes can revolutionize the way we synthesize materials, offering cleaner, energy-efficient, and environmentally friendly alternatives to traditional methods.

We invite submissions and expert talks on:

• Nature-Inspired Catalysis for Material Synthesis: Drawing inspiration from natural catalytic processes like enzyme activity and photosynthesis to develop efficient, low-energy material production methods.

• Green Chemistry Approaches in Material Fabrication: Utilizing environmentally benign reagents, solvents, and processes to minimize toxic waste and energy consumption in material synthesis.

• Biomolecular Catalysts and Their Application in Synthesis: The use of enzymes, DNA, and other biomolecules as catalysts for the creation of functional materials with high specificity and low environmental impact.

• Sustainable Polymerization and Nanomaterial Production: Bioinspired techniques for producing polymers and nanomaterials with reduced reliance on harmful chemicals and solvents.

• Recycling and Upcycling of Materials Using Green Chemistry: Advanced techniques for reusing and repurposing materials through bioinspired processes, contributing to a circular economy.

• Biomimetic Approaches to Nanomaterial Design: Leveraging nature's principles to design nanomaterials with unique properties, such as self-assembly and directed growth, without the need for harmful chemicals.

• Scaling Green Chemistry for Industrial Applications: Overcoming challenges in scaling bioinspired catalysis for large-scale manufacturing while maintaining efficiency, cost-effectiveness, and sustainability.

• Green Chemistry in Energy Storage and Conversion: The role of sustainable chemistry in the development of advanced materials for energy storage, fuel cells, and other clean energy technologies.

Whether you are developing nature-based catalytic processes, creating sustainable materials, or advancing green chemistry in manufacturing, this session offers a unique platform to showcase your work to a global audience of scientists, engineers, and industry experts.

Join us at MSAM – 2026 in Rome to drive the next generation of sustainable material synthesis using bioinspired catalysis and green chemistry principles.