Technological progress and industrialization increase environmental tolls, highlighting the need for sustainable, renewable, and biodegradable biomaterials to reduce pollution and carbon footprints.
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Biomaterials support a circular economy by minimizing waste and offering socioeconomic benefits, though they face scalability and versatility challenges.
Spider silk is an exceptionally durable and versatile natural material, offering unmatched mechanical strength and flexibility, making it suitable for a wide range of applications.
Spider silk production faces challenges in protein sequence understanding and standardized protocols. Our SAC project addresses these to enhance its application as a biomaterial.
We developed SAC, an AI-powered platform for carbon-negative spider silk production, featuring a tool to generate custom silk sequences with tailored properties.
We produce custom spider silk sustainably using a bioreactor that utilizes industrial wastewater. Our carbon-negative model captures carbon and offers economic benefits to companies.
We rigorously test and produce high-quality recombinant spider silk, ensuring its efficiency and scalability for various medical and industrial applications, promoting a greener, circular economy.