The INTERfaces project, now in its 2.5th year, exemplifies the power of collaboration between academia and industry in the realm of science and technology. This initiative has yielded promising results through the efforts of Early Stage Researchers (ESRs) who work across both sectors, sharing knowledge and pushing boundaries in innovation.

One standout achievement is the development of a rapid calorimetric enzyme screening method, enhancing the synthesis efficiency of valuable compounds while minimizing space and energy usage with micro reactors and chips. Additionally, the project has pioneered robust bioprocesses using chemo and bio catalytic cascades, employing immobilized enzymes to streamline production. Notably, bio-based rice husk has been identified as an effective carrier for hydrolytic enzymes, showcasing circular bioeconomy principles at play. This intersection of science and technology not only fosters groundbreaking research but also promotes sustainable practices crucial for future advancements.

🧪 Efficient enzyme screening method for valuable compound synthesis.

🌱 Use of micro reactors and chips for bioprocess development.

🔄 Development of chemo and bio catalytic cascades with immobilized enzymes.

🌾 Bio-based rice husk as effective carrier for hydrolytic enzymes.