SEMINAR:From Fermentation to Fashion: How do we solve scaling...
Guest: Melik Demirel, Huck Chair in Biomimetic Materials; Pearce Professor of Engineering, Pennsylvania State University
Title: From Fermentation to Fashion: How do we solve scaling problems in deep-tech manufacturing?
Date/Time: October 9, 2024, 13:40
Location: FENS G032
Abstract: Biomanufacturing is a process that involves the use of genetically modified microorganisms to produce a wide range of goods, from pharmaceuticals to biofuels. These microorganisms are engineered to enhance their natural abilities, allowing them to make products with improved characteristics that are more efficient and have less environmental impact than traditional manufacturing methods. We can create a more sustainable and eco-friendly future by harnessing the power of biomanufacturing. Protein-based fibers are produced by many organisms (like silk and wool) by controlling a set of genes. In the lab, genetic engineering can enhance these fiber properties and enable the large-scale production of bioengineered proteins. Our group has adjusted these properties through rational engineering and incorporated new proteins on a 100 kg scale. In this talk, we will discuss technical, financial, and operational challenges on a global scale needed to improve the growth of protein-based biomanufacturing for the textile industry.
Bio: Professor Demirel, Huck Chair in Biomimetic Materials at Penn State, is a scientist and innovator with expertise in biotechnology, nanotechnology and materials science. He received his PhD from Carnegie Mellon University (2002) and then worked at the Los Alamos National Laboratory (2003) and Max Planck Institute for Biophysical Chemistry as a von Humboldt fellow (2004). He is highly respected in his field and has been recognized for his achievements, including being a senior National Academy of Inventors member and co-founding Tandem Repeat Technologies, Inc, a climate-positive smart textiles company. As the director of the CRAFT Center at Penn State, his contributions have been published in high-impact articles and patents and multiple cover pages for referenced journals. He has received numerous international awards for his innovation in biomanufacturing. Additionally, he has educated over 50 eager students to make a difference in the world.