Bioengineered materials are developed by leveraging advanced biological engineering techniques to create new materials with enhanced properties. These materials often involve genetic modification, synthetic biology, and bioinformatics to achieve specific functional goals. Bioengineered materials are critical because they offer tailored solutions for various applications, from medical devices to sustainable energy. By precisely engineering the biological components, we can create materials that are stronger, more durable, and more efficient than their natural counterparts. At the BMDL, we focus on developing bioengineered materials that can be used in regenerative medicine, such as engineered tissues and organs. We also explore the creation of bioengineered enzymes for industrial applications and bioengineered polymers for sustainable packaging solutions.