School of Engineering
Showing 201-210 of 270 Results
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Lorenzo Rosa
Visiting Scholar, Program-Bao Z.
Affiliate, Program-Cargnello, M.BioDr. Lorenzo Rosa is a Principal Investigator at the Carnegie Institution for Science and an Assistant Professor (by courtesy) at Stanford University. He is an environmental engineer whose research focuses on the resilience and sustainability of water, energy, and food systems under climate change and resource constraints.
His work combines systems modeling, hydrological simulation, techno-economic analysis, life-cycle assessment, optimization, and geospatial data science to evaluate emerging technologies and identify pathways toward sustainable development. His research spans water scarcity, climate-resilient agriculture, low-carbon fertilizers and fuels, and the environmental and economic feasibility of emerging climate solutions.
Dr. Rosa earned his PhD from the University of California, Berkeley, and completed postdoctoral training at ETH Zurich. He collaborates with academic, industry, and policy partners to translate scientific discoveries into actionable solutions. He also serves as an advisor to Ammobia, a climate technology company developing green ammonia production systems to support industrial decarbonization.
His contributions have been recognized through the American Geophysical Union Science for Solutions Award, the Leonardo Award in Engineering, Forbes 30 Under 30, and designation as a Clarivate Highly Cited Researcher.
Recent publications: https://scholar.google.com/citations?user=riiy1mEAAAAJ
Research group website: https://lorenzo-rosa.wixsite.com/curriculum -
Elizabeth Sattely
Associate Professor of Chemical Engineering
BioPlants have an extraordinary capacity to harvest atmospheric CO2 and sunlight for the production of energy-rich biopolymers, clinically used drugs, and other biologically active small molecules. The metabolic pathways that produce these compounds are key to developing sustainable biofuel feedstocks, protecting crops from pathogens, and discovering new natural-product based therapeutics for human disease. These applications motivate us to find new ways to elucidate and engineer plant metabolism. We use a multidisciplinary approach combining chemistry, enzymology, genetics, and metabolomics to tackle problems that include new methods for delignification of lignocellulosic biomass and the engineering of plant antibiotic biosynthesis.
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Eric S.G. Shaqfeh
Lester Levi Carter Professor and Professor of Mechanical Engineering
Current Research and Scholarly InterestsI have over 25 years experience in theoretical and computational research related to complex fluids following my PhD in 1986. This includes work in suspension mechanics of rigid partlcles (rods), solution mechanics of polymers and most recently suspensions of vesicles, capsules and mixtures of these with rigid particles. My research group is internationally known for pioneering work in all these areas.
