Stanford University

Energy Seminar: Stanford Energy Student Lecture Honorees

When:
Monday, Oct 4, 2021 4:00 PM
Where:
Zoom link forthcoming
More Info:
Energy Seminar: Stanford Energy Student Lecture Honorees

Free

Audience:
General Public
Sponsor:
Precourt Institute for Energy

This seminar will showcase cutting-edge energy research from four top Stanford graduate students.

Battery Degradation Through Cycling‑Induced Oxygen Release – Peter Csernica

While Li‑rich layered oxides offer higher reversible capacities than traditional Li‑ion positive electrodes, they suffer from significant voltage degradation over cycling. Here, we use X‑ray spectromicroscopy to show that oxygen originating in the material bulk is slowly released over hundreds of cycles. Additionally, we show that, even within the same electrode, particle morphology has a profound impact on the oxygen release process. 

Peter Csernica received his A.B. in Chemistry from Cornell University in 2016. He is currently beginning his 6th year as a PhD student in Materials Science working with Professor William Chueh. His work focuses on understanding the atomic and electronic structure of positive electrode materials for Li-ion batteries. The results of his work reveal important strategies for making longer-lasting electrodes consisting of cheaper materials than those currently in use today.

Managing Anoxic Microsites to Increase Carbon Storage in Agricultural Soils – Emily Lacroix

Enhancing soil carbon storage in managed lands is a promising biological negative emissions strategy for carbon dioxide removal from the atmosphere. Anoxic microsites, small zones of oxygen depletion in otherwise aerated soils, are an unquantified determinant of soil carbon storage. Our results show that anoxic microsites enhance carbon storage in soils that were previously thought to have low carbon storage potential.

Emily Lacroix received her B.A. in Chemistry and Environmental Studies from Dartmouth College. She is currently a 5th year Ph.D. candidate in Earth System Science, advised by Professor Scott Fendorf. The results of her work should help inform land management decisions to increase soil carbon storage.

Understanding and Controlling Defects in Halide Perovskite Semiconductors – Julian Vigil

Crystalline semiconductors serve as the basis for many current and next-generation energy technologies, including photovoltaics and solid-state lighting. We highlight the prevalence of point defect reactions occurring in the halide perovskites, an emergent class of optoelectronic materials, and present our efforts to quantify, characterize, and mitigate point defect formation in halide double perovskites.

Julian Vigil received his B.S. in Chemical Engineering from the University of New Mexico in 2017 and an M.Phil. in Chemistry from the University of Cambridge in 2018. He is currently a fourth-year Ph.D. candidate in Chemical Engineering. His research focuses on halide perovskite semiconductors, an emergent class of optoelectronic materials being developed for energy-efficient lighting and solar energy conversion applications. 

Accelerating Power Flow Simulations with Machine Learning – Lily Buechler

Power flow simulations are used extensively by electric utilities and researchers for grid operation and planning. We develop a machine learning-based framework for accelerating power flow simulations by adaptively training a data-driven model in-the-loop with a Newton-Raphson solver. We validate performance on a variety of distribution systems, resulting in significant computational improvements.

Lily Buechler received her B.S. from Tufts University in 2017 and M.S. from Stanford in 2019, both in Mechanical Engineering. She is currently a 5th year Ph.D. Candidate in Mechanical Engineering, advised by Professor Ram Rajagopal. Her work mainly focuses on applying these methods to problems related to the integration of distributed energy resources and controllable loads into power systems.

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