Karen L. Wooley - Sugar Plastics as Designer Next-Gen Sustainable Materials скачать в хорошем качестве

Karen L. Wooley - Sugar Plastics as Designer Next-Gen Sustainable Materials

2023 Welch Conference: "Living in a Material World" Karen Wooley holds the W. T. Doherty-Welch Chair in Chemistry and is a University Distinguished Professor at Texas A&M University, with appointments in the Departments of Chemistry, Chemical Engineering and Materials Science & Engineering. She also serves as Director of the Laboratory for Synthetic-Biologic Interactions. Her academic training included undergraduate study at Oregon State University (B.S., 1988) and graduate study under the direction of Jean M. J. Fréchet at Cornell University (Ph.D., 1993). She began an academic career as an Assistant Professor of Chemistry at Washington University in St. Louis, Missouri in 1993, was promoted in 1999 to Full Professor with tenure, and was installed in 2006 as a James S. McDonnell Distinguished University Professor in Arts & Sciences. Karen relocated to Texas A&M University in July 2009. In addition to her academic positions, she is the co-founder and President of Sugar Plastics, LLC, and Chief Technology Officer of Teysha Technologies, Ltd. Research interests include the synthesis and characterization of degradable polymers derived from natural products, unique macromolecular architectures, complex polymer assemblies, and well-defined nanostructured materials. She has designed synthetic strategies to harness the rich compositional, regiochemical and stereochemical complexity of natural products for the construction of hydrolytically-degradable polymers, which have impact toward sustainability, reduction of reliance on petrochemicals, and production of biologically-beneficial and environmentally-benign natural products upon degradation – these materials are expected to impact the global issue of plastic pollution and address challenges resulting from climate change. Recent awards include election as a Fellow of the American Academy of Arts and Sciences (2015), National Academy of Inventors (2019), American Association for the Advancement of Science (2020), American Institute for Medical and Biological Engineering (2020), and National Academy of Sciences (2020); she was also named as the 2021 Southeastern Conference (SEC) Professor of the Year. Abstract: Sugar Plastics as Designer Next-gen Sustainable Materials A primary interest in the Wooley laboratory is the production of functional polymers from renewable sources that are capable of reverting to those natural products once their purpose has been served. A long-standing focus has been the development of synthetic methodologies that transform sugars, amino acids and other natural products into well-defined polymer structures, while creating mechanisms for breakdown after their useful lifetime is complete, and providing for biological and environmental resorption of the degradation products. The overall process impacts the need to address the increasing accumulation and associated hazards of plastic pollution from the environmental persistence of non-degradable, petrochemically-sourced polymer systems. Moreover, inherent diversities of natural products provide opportunities to expand the scopes, complexities and properties of polymers, by utilizing fundamental organic chemistry approaches. This presentation will highlight the development of synthetic methodologies that take advantage of the diversity and complexities of carbohydrates as building blocks and invoke in-situ structural metamorphoses during the polymerization processes to produce next-generation sustainable, degradable polymers of diverse compositions, regio- and stereochemistries, and that can be made to exhibit a range of properties. Academically, we’ve made significant fundamental advances, and through partnership with Teysha Technologies, Ltd., advances are also being made toward commercial translation of carbohydrate-derived degradable plastics that are expected to become of great environmental benefit and societal impact. As scaled-up production of biomass-based biodegradable polymers continues to grow, we’ve recognized a need to avoid competition with resources that are important to food, fuel, construction and other societal demands. Therefore, we’re turning to unique supply chains, including harvesting of naturally-derived building blocks from black soldier flies, which are being farmed for rapidly growing agricultural feed and food crop industries. Target materials are designed for potential applications in diverse areas, from energy, to medicine, to the environment. Examples will highlight contributions that polymer chemistry can make toward technological materials that are capable of impacting global needs, such as water-food-energy-health, and the grand challenges that must be solved in the coming decade. Learn more about The Welch Conference: https://welch1.org/conference/confere...