Stanford University
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Rachel Herring
Ph.D. Student in Environment and Resources, admitted Autumn 2024
BioRachel Herring (Choctaw Nation) investigates how to disrupt extractive capitalism and neoliberal sustainability strategies through decolonial approaches to energy. She employs ethnographic methods to investigate how energy infrastructures reflect and reproduce systems of power, and how infrastructure may instead serve as a tool of self-determination. Previously, she has recommended policy alternatives for domestic mining with the Department of Energy’s Indian Energy Program, and has explored impacts of critical mineral extraction on Native land as a Kathryn Wasserman Davis Conflict Transformation Fellow. As a Fulbright Fellow and National Geographic Explorer, Rachel explored the intersection between the clean energy transition and the depopulation crisis in rural Japan. She was named a Next Generation Photographer by the 2024 Japan Photo Award in Kyoto, and her work has appeared in the New York Times. She holds an MA in International Environmental Policy from the Middlebury Institute, and a BA from New York University’s Gallatin School of Individualized Study.
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Thomas Hersbach
Associate Scientist, SLAC National Accelerator Laboratory
BioThom Hersbach is a Policy Fellow at the Stanford Woods Institute for the Environment and a Project Scientist at SLAC National Accelerator Laboratory. His interests span all areas of the energy transition, and his work ranges from basic science studies of water splitting catalysts to exploring the socio-technological contexts of the hydrogen economy and the future chemical refinery complex.
In his free time, Thom enjoys primal movement, running, weightlifting, (guerilla) gardening, baking sourdough bread, brewing coffee/beer, and reading about soil ecology. -
Daniel Herschlag
Professor of Biochemistry and, by courtesy, of Chemical Engineering
Current Research and Scholarly InterestsOur research is aimed at understanding the chemical and physical behavior underlying biological macromolecules and systems, as these behaviors define the capabilities and limitations of biology. Toward this end we study folding and catalysis by RNA, as well as catalysis by protein enzymes.
