Materials and Manufacturing Innovation towards Sustainable Energy
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Abstract
Transitioning into a sustainable future requires the identification of sustainable and functional materials with high performance. As the main component of wood, cellulose is the most abundant polymer on earth with many economic and environmental benefits. Cellulose provides a unique hierarchical framework from meters tall to ångström scale and can be fibrillated into building blocks of various dimensions. In this talk, I will give examples on our gained understanding on the multiscale process-structure-property relationships of cellulose towards unlocking its capabilities not only as a sustainable option, but as a critical material that can enable new functionalities and advanced solutions.
Bio
Dr. Tian Li is an Assistant Professor in School of Mechanical Engineering at Purdue University. She obtained her PhD in the area of electrophysics and microelectronics in the Department of Electrical and Computer Engineering at University of Maryland. During postdoc, she focused her research in material innovation and sustainable energy. As the leading author, she has published in Science, Nature, Nature Energy, Nature Materials, Science Advances, among others. Her work has been highlighted by many medias including Nature Index, Science podcast, New York Times, LA Times. She received several awards, including ASME Haythornthwaite Award (2020), R&D 100 Finalist (2020), MRS Postdoctoral Award (2020) and Forbes 30 under 30 in energy category (2018), ECE Distinguished Dissertation Fellowship (2015) and Outstanding Graduate Assistant Award in University of Maryland (2015).
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