BEGIN:VCALENDAR VERSION:2.0 CALSCALE:GREGORIAN PRODID:iCalendar-Ruby BEGIN:VEVENT CATEGORIES:Class/Seminar DESCRIPTION:Abstract\n\nSustainability has many facets and\, in this presen tation\, I will share my recent research endeavors aimed at advancing susta inability in the realms of energy\, water\, and medicine. The first part o f my talk delves into electrochemical transport phenomena in energy storage systems\, with a focus on Li plating and dendritic growth on graphite/Li-m etal anode\, which are the leading causes of degradation and catastrophic f ailure for batteries under fast charging conditions. Deep understanding of these phenomena would facilitate the design of strategies to reduce\, or co mpletely suppress\, the onset of lithium plating on the graphite anode\, an d the instabilities characterizing electrodeposition on the lithium metal a node. \n\nIn the second part of my talk\, I will present my recent work on the efficient estimation of evapotranspiration for smart agriculture. This includes advancements that accelerate computational time by two orders of magnitude compared to the current standard approach. Finally\, I will discu ss two biomedical applications: blood transfusion and hypertonic treatment of acute respiratory distress syndrome (ARDS). These efforts contribute to sustainable energy conversion and storage\, sustainable agricultural practi ces\, and sustainable blood management\, steering us towards a more sustain able future.\n\nBio\n\nWeiyu Li is a postdoctoral scholar in the Department s of Physics and Materials Science and Engineering at Stanford University. Her research focuses on modeling and simulation of electrochemical transpor t in energy storage systems. She received her PhD in Energy Science and En gineering from Stanford University. Her other research interests include da ta assimilation and biomedical modeling. Prior to her doctoral studies\, We iyu obtained her M.Sc. degree in Mechanical and Aerospace Engineering from Princeton University. Weiyu is the sole recipient of the Siebel Scholars Aw ard in Energy Science\, class of 2023. She has also received Henry J. Ramey Fellowship Award at Stanford University\, and the Princeton University Fel lowship in Natural Sciences and Engineering.\n\n \n\nRelevant Publications\ n\nW. Li and D.M. Tartakovsky\, “Effective representation of active materia l and carbon binder in porous electrodes\,” Journal of The Electrochemical Society\, 2022.\n\nF. Boso\, W. Li\, K. Um\, and D.M. Tartakovsky\, “Impact of Carbon Binder Domain on the performance of lithium-metal batteries\,” J ournal of The Electrochemical Society\, 2022.\n\n W. Li\, H.A. Tchelepi\, Y . Ju\, and D.M. Tartakovsky\, “Stability-guided strategies to mitigate dend ritic growth in lithium-metal batteries\,” Journal of The Electrochemical S ociety\, 2022.\n\n W. Li\, H.A. Tchelepi\, and D.M. Tartakovsky\, “Screenin g of electrolyte-anode buffers to suppress lithium dendrite growth in all-s olid-state batteries\,” Journal of The Electrochemical Society\, 2023.\n\n W. Li and D.M. Tartakovsky\, “Effective models of heat conduction in compos ite electrodes\,” Journal of The Electrochemical Society\, 2023.\n\n W. Li and D.M. Tartakovsky\, “Fast and accurate estimation of evapotranspiration rates for smart agriculture\,” Water Resources Research\, 2023.\n\n W. Li\, …\, and D. M. Tartakovsky\, "Estimation of evapotranspiration rates and ro ot water uptake profiles from soil moisture sensor array data\," Water Reso urces Research\, 2021.\n\n W. Li\, A. G. Tsai\, M. Intaglietta and D. M. Ta rtakovsky\, "A model of anemic tissue perfusion after blood transfusion sho ws critical role of endothelial response to shear stress stimuli\," Journal of Applied Physiology\, 2021. \n\n W. Li\, M. Intaglietta\, J. Martini and D. M. Tartakovsky\, "Hypertonic treatment of acute respiratory distress sy ndrome\," Frontiers in Bioengineering and Biotechnology\, 2023. DTEND:20240304T212000Z DTSTAMP:20260312T102811Z DTSTART:20240304T203000Z GEO:37.426823;-122.174006 LOCATION:Green Earth Sciences Building\, 104 SEQUENCE:0 SUMMARY:ESE Seminar - Weiyu Li: "Navigating Sustainability through Energy\, Water\, and Medical Innovations" UID:tag:localist.com\,2008:EventInstance_45749569222839 URL:https://events.stanford.edu/event/ese_seminar_-_weiyu_li_navigating_sus tainability_through_energy_water_and_medical_innovations END:VEVENT END:VCALENDAR