Stanford University
Showing 101-200 of 353 Results
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Catherine Gorle
Associate Professor of Civil and Environmental Engineering and, by courtesy, of Mechanical Engineering
Current Research and Scholarly InterestsGorle's research focuses on the development of predictive flow simulations to support the design of sustainable buildings and cities. Specific topics of interest are the coupling of large- and small-scale models and experiments to quantify uncertainties related to the variability of boundary conditions, the development of uncertainty quantification methods for low-fidelity models using high-fidelity data, and the use of field measurements to validate and improve computational predictions.
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Zhili He
Graduate Visiting Researcher Student, Civil & Envir Engr
BioZhili He is a Visiting PhD Student in the Department of Civil and Environmental Engineering at Stanford University, working with Prof. Hae Young Noh. He is currently pursuing his PhD at The Hong Kong University of Science and Technology under the supervision of Prof. Yu-Hsing Wang.
His research lies at the intersection of robotics, computer vision, and artificial intelligence for the built environment. His current work focuses on autonomous quadruped robot systems, SLAM, 3D building digitalization, BIM, large language models, and AI-driven structural inspection.
He has published research in leading journals including Information Fusion and Automation in Construction. His long-term goal is to develop intelligent robotic systems that enable autonomous inspection, digitalization, and maintenance of civil infrastructure. -
Lynn Hildemann
Wayne Loel Professor of Sustainability and Senior Associate Dean for Education
BioLynn Hildemann's current research areas include the sources and dispersion of airborne particulate matter indoors, and assessment of human exposure to air pollutants.
Prof. Hildemann received BS, MS, and PhD degrees in environmental engineering science from the California Institute of Technology. She is an author on >100 peer-reviewed publications, including two with over 1000 citations each, and another 6 with over 500 citations each. She has been honored with Young Investigator Awards from NSF and ONR, the Kenneth T. Whitby Award from the AAAR (1998), and Stanford's Gores Award for Teaching Excellence (2013); she also was a co-recipient of Atmospheric Environment’s Haagen-Smit Outstanding Paper Award (2001).
She has served on advisory committees for the Bay Area Air Quality Management District and for the California Air Resources Board. She has been an Associate Editor for Environmental Science & Technology, and Aerosol Science and Technology, and has served on the advisory board for the journal Environmental Science & Technology.
At Stanford, Prof. Hildemann has been chair of the Department of Civil & Environmental Engineering, and served as an elected member of the Faculty Senate. She has chaired the School of Engineering Library Committee, the University Committee on Judicial Affairs, and the University Breadth Governance Board. -
Mark Z. Jacobson
Professor of Civil and Environmental Engineering and Senior Fellow at the Woods Institute for the Environment and at the Precourt Institute for Energy
BioMark Z. Jacobson’s career has focused on better understanding air pollution and global warming problems and developing large-scale clean, renewable energy solutions to them. Toward that end, he has developed and applied three-dimensional atmosphere-biosphere-ocean computer models and solvers to simulate air pollution, weather, climate, and renewable energy. He has also developed roadmaps to transition states and countries to 100% clean, renewable energy for all purposes and computer models to examine grid stability in the presence of high penetrations of renewable energy.
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Rishee Jain
Associate Professor of Civil and Environmental Engineering
BioProfessor Jain's research focuses on the development of data-driven and socio-technical solutions to sustainability problems facing the urban built environment. His work lies at the intersection of civil engineering, data analytics and social science. Recently, his research has focused on understanding the socio-spatial dynamics of commercial building energy usage, conducting data-driven benchmarking and sustainability planning of urban buildings and characterizing the coupled dynamics of urban systems using data science and micro-experimentation. For more information, see the active projects on his lab (Stanford Urban Informatics Lab) website.
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Hyunmin Kang
Affiliate, Center for Sustainable Development and Global Competitiveness
BioHyunmin Kang is an Assistant Professor in the Department of Psychology at Daegu Univeristy in South Korea. He received his Ph.D. in Cognitive Engineering at Yonsei University. He conducts research within the Human-Urban Interaction pillar, examining the interactions between humans, cities, culture, transportation, technology, and services based on psychological and human factors theories. His research particularly utilizes quantitative and qualitative analysis, big data analytics, and metaverse technologies. His goal is to conduct research that contributes to improving the lives of people living in urban environments by deepening the understanding of human behavior.
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Anthony Kinslow II
Lecturer
BioAnthony, the Founder and CEO of Gemini Energy Solutions, is an expert in energy efficiency analytics and building science and a research-oriented practitioner who utilizes best practices from around the world to develop innovative solutions for his clients. His company's focus is reflective of Anthony's mission in life — making a meaningful impact on mitigating global warming. In Gemini, Anthony has created a vehicle to engage, educate, and energize underrepresented minority communities and the underserved small commercial building market in energy efficiency. Under Anthony’s leadership, Gemini is implementing strategies for overcoming cultural and socio-economic barriers that prevent the vast majority of Americans from being aware or engaged in energy efficiency. Operating nationwide, the company also partners with municipalities — such as San Francisco International Airport and Memphis, TN — to support their efforts to meet their climate change goals and increase economic resiliency through energy efficiency.
Education:
PhD, Stanford University, Civil and Environmental Engineering
MS, Stanford University, Sustainable Design and Construction
BS, North Carolina A&T State University, Civil and Environmental Engineering
Courses:
Racial Equity in Energy
Quest for an Inclusive Clean Energy Economy -
Sam Kipper
Ph.D. Student in Civil and Environmental Engineering, admitted Summer 2026
BioMy name is Samantha Kipper, and I am a graduate student in Civil and Environmental Engineering. My research focuses on offshore wind energy, and I aim to make the world a better place through technical, sustainable energy solutions.
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Anne Kiremidjian
The C.L. Peck, Class of 1906 Professor in the School of Engineering, Emerita
BioKiremidjian’s research focuses in two main areas. The first is in earthquake hazard, risk, and resilience modeling. She works on structural component and systems reliability methods; structural damage evaluation models; and regional damage, loss and casualty estimation methods utilizing geographic information and database management systems for portfolios of buildings or spatially distributed lifeline systems assessment with ground motion and structure correlations. Her current research has focused on the development of time dependent hazard and risk models for resilience evaluation of hospitals, schools and financial instruments. In the area of time dependent risk assessment, she has developed models for damage estimation of deteriorating structures in varying environmental conditions.
The second area of research focuses on the design and implementation of wireless sensor networks for health monitoring of structures under every-day loading conditions, and the development of robust and computationally efficient algorithms for structural damage diagnosis following extreme events that can be embedded in wireless sensing units. The damage algorithms utilize modern data science, machine learning and artificial intelligence methods. -
Peter K. Kitanidis
Professor of Civil and Environmental Engineering
BioKitanidis develops methods for the solution of interpolation and inverse problems utilizing observations and mathematical models of flow and transport. He studies dilution and mixing of soluble substances in heterogeneous geologic formations, issues of scale in mass transport in heterogeneous porous media, and techniques to speed up the decay of pollutants in situ. He also develops methods for hydrologic forecasting and the optimization of sampling and control strategies.
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Yun-Dam Ko
Ph.D. Student in Civil and Environmental Engineering, admitted Autumn 2024
BioYun-Dam Ko's research focuses on combining data-driven solutions with building physics to enhance the sustainability of the urban built environment. His recent work leverages AI to optimize building energy performance, with a specific focus on intelligent HVAC system control and advanced Building Energy Modeling. Bridging research and practice, he previously worked at a startup where he developed and deployed AI solutions to improve building energy efficiency at scale.
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Erik Kolderup
Adjunct Lecturer, Civil and Environmental Engineering
BioErik Kolderup is a consulting engineer focusing on building energy efficiency. He served as Vice President of Eley Associates and Associate Principal at Architectural Energy Corporation in San Francisco, before starting Kolderup Consulting in 2007. He holds degrees in electrical engineering (BS 1985, MS 1986) and industrial engineering (MS 1990) from Stanford and is an ASHRAE-certified Building Energy Modeling Professional.
Please see also www.kolderupconsulting.com. -
Jeffrey R. Koseff
William Alden Campbell and Martha Campbell Professor in the School of Engineering and Professor of Oceans, Emeritus
BioJeff Koseff, founding co-director of the Stanford Woods Institute for the Environment, is an expert in the interdisciplinary domain of environmental fluid mechanics. His research falls in the interdisciplinary domain of environmental fluid mechanics and focuses on the interaction between physical and biological systems in natural aquatic environments. Current research activities are in the general area of environmental fluid mechanics and focus on: turbulence and internal wave dynamics in stratified flows, coral reef and sea-grass hydrodynamics, the role of natural systems in coastal protection, and flow through terrestrial and marine canopies. Most recently he has begun to focus on the interaction between gravity currents and breaking internal waves in the near-coastal environment, and the transport of marine microplastics. Koseff was formerly the Chair of Civil and Environmental Engineering, and the Senior Associate Dean of Engineering at Stanford, and has served on the Board of Governors of The Israel Institute of Technology, and has been a member of the Visiting Committees of the Civil and Environmental Engineering department at Carnegie-Mellon University, The Iowa Institute of Hydraulic Research, and Cornell University. He has also been a member of review committees for the College of Engineering at the University of Michigan, The WHOI-MIT Joint Program, and the University of Minnesota Institute on the Environment. He is a former member of the Independent Science Board of the Bay/Delta Authority. He was elected a Fellow of the American Physical Society in 2015, and received the Richard Lyman Award from Stanford University in the same year. In 2020 he was elected as a Fellow of the California Academy of Sciences. Koseff also served as the Faculty Athletics Representative to the Pac-12 and NCAA for Stanford until July 2024.
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Mathieu Lapôtre
Assistant Professor of Earth and Planetary Sciences and, by courtesy, of Geophysics and of Civil and Environmental Engineering
BioProf. Lapôtre leads the Earth & Planetary Surface Processes group. His research focuses on the physics behind sedimentary and geomorphic processes that shape planetary surfaces (including Earth's), and aims to untangle what sedimentary rocks tell us about the past hydrology, climate, and habitability of planets.
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Kincho Law
Professor of Civil and Environmental Engineering
BioProf. Law’s professional and research interests focus on the application of computational and information science in engineering. His work has dealt with various aspects of computational mechanics and structural dynamics, AI and machine learning, large scale database management, Internet and cloud computing, numerical methods and high performance computing. His research application areas include computer aided engineering, legal and engineering informatics, engineering enterprise integration, web services and supply chain management, monitoring and control of engineering systems, smart infrastructures, and smart manufacturing.
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James Leckie
C.L. Peck, Class of 1906 Professor in the School of Engineering, Emeritus
BioLeckie investigates chemical pollutant behavior in natural aquatic systems and engineered processes, specifically the environmental aspects of surface and colloid chemistry and the geochemistry of trace elements. New research efforts are focused on the development of techniques and models for assessment of exposure of humans to toxic chemicals. Specific attention has been paid to the evaluation of exposure of young children to toxic chemicals. Other interests include technology transfer and the development of environmental science programs in developing nations.
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Michael Lepech
C. L. Peck, Class of 1906, Professor and Senior Fellow at the Woods Institute for the Environment
BioUnsustainable energy and material consumption, waste production, and emissions are some of today’s most pressing global concerns. To address these concerns, civil engineers are now designing facilities that, for example, passively generate power, reuse waste, and are carbon neutral. These designs are based foremost on longstanding engineering theory. Yet woven within this basic knowledge must be new science and new technologies, which advance the field of civil engineering to the forefront of sustainability-focused design.
My research develops fundamental engineering design concepts, models, and tools that are tightly integrated with quantitative sustainability assessment and service life modeling across length scales, from material scales to system scales, and throughout the early design, project engineering, construction, and operation life cycle phases of constructed facilities. My research follows the Sustainable Integrated Materials, Structures, Systems (SIMSS) framework. SIMSS is a tool to guide the multi-scale design of sustainable built environments, including multi-physics modeling informed by infrastructure sensing data and computational learning and feedback algorithms to support advanced digital-twinning of engineered systems. Thus, my research applies SIMMS through two complementary research thrusts; (1) developing high-fidelity quantitative sustainability assessment methods that enable civil engineers to quickly and probabilistically measure sustainability indicators, and (2) creating multi-scale, fundamental engineering tools that integrate with sustainability assessment and facilitate setting and meeting sustainability targets throughout the life cycle of constructed facilities.
Most recently, my research forms the foundation of the newly created Stanford Center at the Incheon Global Campus (SCIGC) in South Korea, a university-wide research center examining the potential for smart city technologies to enhance the sustainability of urban areas. Located in the smart city of Songdo, Incheon, South Korea, SCIGC is a unique global platform to (i) advance research on the multi-scale design, construction, and operation of sustainable built environments, (ii) demonstrate to cities worldwide the scalable opportunities for new urban technologies (e.g., dense urban sensing networks, dynamic traffic management, autonomous vehicles), and (iii) improve the sustainability and innovative capacity of increasingly smarter cities globally.
With an engineering background in civil and environmental engineering and material science (BSE, MSE, PhD), and business training in strategy and finance (MBA), I continue to explore to the intersection of entrepreneurship education, innovation capital training, and the potential of startups to more rapidly transfer and scale technologies to solve some of the world's most challenging problems. -
Jerker Lessing
Adjunct Professor, Civil and Environmental Engineering
BioI earned my PhD at Lund University, Sweden, focused on strategic aspects of industrialized construction. I am the CEO and founder of Lessing Innovation, an advisory and consultancy firm within construction industrialization, innovation and sustainability. Between 2015-2023 I had the role as Director of Research & Development at BoKlok, Sweden’s leading housing company within industrialized construction. Before joining BoKlok, I worked for one of Sweden's leading engineering firms, Tyréns AB, where I led a team of Consultants focusing on Construction innovation. I was also engaged by leading Construction and housing companies as a consultant and advisor for numerous innovation- and development projects aimed at industrialized construction.
I am frequently engaged as a lecturer and moderator in both academia and industry, have co-authored a book about industrialized construction and I publish research in international Journals.
I have been a visiting researcher and lecturer at Stanford University since 2013 and since 2017 I am adjunct Professor here. At Stanford I have established and taught the course CEE324 Industrialized Construction, organized study trips for Stanford students and faculty to Sweden, as well as organized the Industrialized Construction Forum which is a industry-academia conference, held annually.
In my research I developed a framework describing contemporary industrialized construction, which has served as a foundation for academic research, as well as a guide for the industry’s development, in Sweden and internationally. -
Raymond Levitt
Kumagai Professor in the School of Engineering, Emeritus
Current Research and Scholarly InterestsDr. Levitt founded and directs Stanford’s Global Projects Center (GPC), which conducts research, education and outreach to enhance financing, governance and sustainability of global building and infrastructure projects. Dr. Levitt's research focuses on developing enhanced governance of infrastructure projects procured via Public-Private Partnerships (PPP) delivery, and alternative project delivery approaches for complex buildings like full-service hospitals or data centers.
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Christian Linder
Professor of Civil and Environmental Engineering
BioChristian Linder is a Professor of Civil and Environmental Engineering and, by courtesy, of Mechanical Engineering. Through the development of novel and efficient in-house computational methods based on a sound mathematical foundation, the research goal of the Computational Mechanics of Materials (CM2) Lab at Stanford University, led by Dr. Linder, is to understand micromechanically originated multi-scale and multi-physics mechanisms in solid materials undergoing large deformations and fracture. Applications include sustainable energy storage materials, flexible electronics, and granular materials.
Dr. Linder received his Ph.D. in Civil and Environmental Engineering from UC Berkeley, an MA in Mathematics from UC Berkeley, an M.Sc. in Computational Mechanics from the University of Stuttgart, and a Dipl.-Ing. degree in Civil Engineering from TU Graz. Before joining Stanford in 2013 he was a Junior-Professor of Micromechanics of Materials at the Applied Mechanics Institute of Stuttgart University where he also obtained his Habilitation in Mechanics. Notable honors include a Fulbright scholarship, the 2013 Richard-von-Mises Prize, the 2016 ICCM International Computational Method Young Investigator Award, the 2016 NSF CAREER Award, and the 2019 Presidential Early Career Award for Scientists and Engineers (PECASE). -
Dr Kelvin Liu
Research Scientist, Center for Sustainable Development and Global Competitiveness
BioDr. Kelvin Liu is a Research Scientist at Stanford University. He holds a Ph.D. in Engineering from the University of Cambridge and completed his postdoctoral research at the University of Chinese Academy of Sciences. He also obtained dual master’s degrees from the University of Cambridge and Johns Hopkins University. Dr. Liu has previously served as an Industrial Associate at the Institute for Manufacturing, University of Cambridge. He has also served as a Partner Expert with the United Nations Industrial Development Organization (UNIDO), a lecturer in UNIDO’s Eco-Design Leadership Program.
Dr. Kelvin Liu has led and participated in over 15 major research projects funded by the European Union, the UK’s Engineering and Physical Sciences Research Council (EPSRC). His research spans artificial intelligence, technology innovation, strategic management, and industrial sustainability. He has published more than 20 papers in SCI/SSCI-indexed journals, holds three invention patents, serves as a reviewer for multiple international journals, and has delivered over 20 invited talks at international conferences and university seminars. -
Xue Luo
Affiliate, Civil and Environmental Engineering
BioDr. Xue Luo is a Visiting Professor at Stanford University and a Professor at Zhejiang University, China. Her research lies at the intersection of transportation infrastructure engineering, mechanics, and artificial intelligence. She received her B.E. from Zhejiang University and Ph.D. in Civil Engineering from Texas A&M University in 2012. Prior to joining Zhejiang University in 2017, she spent over ten years at the Texas A&M Transportation Institute, contributing to NCHRP, FHWA, and state DOT projects in transportation infrastructure.
Dr. Luo’s recent research focuses on transportation infrastructure intelligence and resilience. By integrating multiscale and multiphysics modeling, data analytics, and artificial intelligence, she develops physics-informed approaches that bridge engineering mechanisms and AI, enabling transportation infrastructure systems to perceive, predict, reason, and support decision-making under complex and evolving conditions. Her work advances resilient and sustainable infrastructure through innovations in materials, structural systems, and environmental adaptation, with the goal of extending service life, reducing life-cycle costs, and enhancing system reliability under increasingly demanding operational and climate conditions.
Beyond academic research, Dr. Luo works closely with transportation agencies, infrastructure owners, and industry partners to translate scientific advances into engineering practice. She has established long-term collaborations with transportation authorities, highway operators, and research institutes in Zhejiang Province and across China, contributing to the development of intelligent infrastructure systems, network-level performance assessment platforms, and data-driven maintenance decision-making frameworks. Her work has supported the monitoring, evaluation, and management of large-scale transportation infrastructure networks, helping advance the digital transformation, resilience, and sustainability of transportation systems.
Dr. Luo has led and contributed to numerous national, federal-, and state-funded research projects in both China and the United States. She has published over 200 journal and conference papers and has independently supervised more than 30 doctoral and master students. She serves on the editorial boards of several international journals and actively contributes to the research community through conference organization, peer review, and evaluations of industry standards and technical specifications.
Dr. Luo’s long-term vision is to connect physical understanding, predictive simulation, autonomous decision-making, and intervention strategies to enable the next generation of intelligent and resilient transportation infrastructure. -
Michael Lyons
Adjunct Lecturer, Civil and Environmental Engineering
Bio-Co-founded Zilkha Venture Partners; sourced investments that returned 5.8x ; rated Top 5% by Cambridge Associates
-Venture Partner at four other Funds including DFJ/ePlanet I & II, Paladin Capital Group- Deals created $50B+ in market value
-Co-founder, CEO or Chairman or C-Suite of 12 Companies including Integrated Systems (INTS, merged with WIND, acq. by Intel), Shadow Networks acq. by Alcalvio), and CypherPath
(acq. by ManTech); co-founding CEO, SafeView (Acq. By L3-Harris then Leidos) Returned 78% IRR for Series A and 163% IRR for Series B investors
-Currently Chairman PrecisionOSTech (Surgical VR Training); and Turbo Protocol (Web 3 Blockchain ); co-founder & CEO (emeritus), RapidAscent (Cyber Ed); Director RTI, global
leader in IIoT; General Partner, NativeFirst Capital
-Co-founder, Numerous SCPD exec Ed Programs, Idea to Market online program, Price-Babson Fellow in eShip Education
He is also a Managing Director of NewLine Ventures, LLC, a management consulting firm. From 2008 to 2011, he also served as a Venture Partner with the Paladin Capital Group in Washington, D.C., and as a Venture Partner for ePlanet Ventures I and II. He founded SafeView, Inc. in 2002, a Government Laboratory (PNNL) spinout, to address aspects of the anti-terrorist physical security market; He served as Chairman until its sale to L3 Harris in March 2006. Leidos then acquired the Company in 2020. This technology is now the security standard in airports worldwide.
Concurrently, Mr. Lyons is an Adjunct Lecturer at the Stanford University Department of Civil and Environmental Engineering. Serving in the Stanford position since 1988, he was a co-developer of the Stanford Technology Ventures Program with Prof. Tom Byers and the founding professor of Technology Venture Formation. Engineering. He is the co-creator of the Stanford Innovation and Entrepreneurship two-week program for existing high-tech companies produced and managed by the Stanford Center for Professional Development (SCPD). This program has just completed its 14th year. He has co-produced and delivered numerous other SCPD and STVP programs. He co-founded the Ratio Academy focused on creating training platforms for entrepreneurial education, with a co-developed online program with SCPD called Idea to Market, I2M. He is the founding professor of Tech Venture Formation, MSE273.
From 1980 to 1991, he was a co-founder, a Vice-President, and a Director of Integrated Systems Inc. (INTS, founded 1980), a leading implementer of high-performance real-time control systems for aircraft, automotive, and manufacturing applications. INTS was fundamentally a spinout from the Lockheed Palo Alto Research Lab and Systems Control, Inc. The Company was merged with WindRiver Systems in 1999. WindRiver was acquired by Intel in 2009.
Mr. Lyons received a Bachelor and Masters (equivalent) in Engineering Physics from Cornell University, an MSEE from Stanford, did Ph.D research in Aero/Astro at Stanford (abd) and an MBA, with Distinction, from the Pepperdine Presidential/Key Executive Program. He is a graduate of the Stanford/AEA Institute for the Management of High Technology Companies and a Price-Babson Fellow in Entrepreneurship Education. He holds an FAA multi-Engine Airline Transport Pilot License and Certified Flight Instructor Certificates for Instrument and Multi-Engine Aircraft. He is an avid sailor and motorcyclist. -
Ernestine Fu Mak
Administrative Associate 2, Civil and Environmental Engineering
BioDr. Ernestine Fu Mak is Co-Director of FTL (Frontier Technology Lab), an initiative of the Stanford School of Engineering and Doerr School of Sustainability. She has taught interdisciplinary courses across engineering and medicine: Frontier Technology - Understanding and Preparing for Technology in the Next Economy, Design and Innovation for the Circular Economy, Autonomous Vehicles Studio, Entrepreneurship Through the Lens of Venture Capital, and Silicon Valley and the U.S. Government.
She is the Founder of Brave Capital. Over the past decade, she has worked across the startup ecosystem, negotiating mergers and acquisitions, organizing SPVs for later-stage companies, angel investing in and advising startups that have since been acquired, and advising banks on venture debt. She began her career at ALP, where she guided founders as they navigated the journey to product-market fit and scaled their businesses and teams. She was recognized on the inaugural Forbes Magazine 30 Under 30 list, Vanity Fair Next Establishment list, and Business Insider Silicon Valley 100 list. She is a Kauffman Fellow and Eisenhower Fellow.
She is a strong advocate for active citizen participation in our democracy. She co-authored “Civic Work, Civic Lessons” with former Stanford Law School Dean Thomas Ehrlich to encourage civic engagement. She also co-authored “Renewed Energy” with IPCC major contributor John Weyant to guide government policy and investment strategies for a sustainable future. She has served as a board director and advisor to nonprofits such as Ad Council, California 100, and Presidio Institute.
She completed her B.S., M.S., MBA, Ph.D., and postdoc at Stanford University. Graduating with Tau Beta Pi and Phi Beta Kappa honors, she was awarded the Kennedy Prize for the top undergraduate thesis in engineering and the Terman Award as one of the top thirty graduating seniors in engineering. Her doctoral thesis focused on human operator and autonomous vehicle interactions with system bias and transitions of control. She is an inventor on numerous granted or in-process technology patents.
She is a proud part of a military family. -
Gilbert Masters
Professor (Teaching) of Civil and Environmental Engineering, Emeritus
BioGILBERT M. MASTERS
MAP EMERITUS PROFESSOR OF SUSTAINABLE ENERGY
B.S. (1961) AND M.S. (1962) UNIVERSITY OF CALIFORNIA, LOS ANGELES
PH.D. (1966) Electrical Engineering, STANFORD UNIVERSITY
Gil Masters has focused on energy efficiency and renewable energy systems as essential keys to slowing global warming, enhancing energy security, and improving conditions in underserved, rural communities. Although officially retired in 2002, he has continued to teach CEE 176A: Energy-Efficient Buildings, and CEE 176B: Electric Power: Renewables and Efficiency. He is the author or co-author of ten books, including Introduction to Environmental Engineering and Science (3rd edition, 2008), Renewable and Efficient Electric Power Systems, (2nd edition, 2013), and Energy for Sustainability: Technology, Policy and Planning (2nd edition, 2018). Professor Masters has been the recipient of a number of teaching awards at Stanford, including the university's Gores Award for Excellence in Teaching, and the Tau Beta Pi teaching award from the School of Engineering. Over the years, more than 10,000 students have enrolled in his courses. He served as the School of Engineering Associate Dean for Student Affairs from 1982-1986, and he was the Interim Chair of the Department of Civil and Environmental Engineering in 1992-93. -
Meagan Mauter
Associate Professor Civil & Environmental Engineering, of Photon Science, Senior Fellow at the Woods Institute for the Environment and at the Precourt Institute for Energy and Associate Professor, by courtesy, of Chemical Engineering
BioProfessor Meagan Mauter is appointed as an Associate Professor of Civil & Environmental Engineering and as a Center Fellow, by courtesy, in the Woods Institute for the Environment. She directs the Water and Energy Efficiency for the Environment Lab (WE3Lab) with the mission of providing sustainable water supply in a carbon-constrained world through innovation in water treatment technology, optimization of water management practices, and redesign of water policies. Ongoing research efforts include: 1) developing automated, precise, robust, intensified, modular, and electrified (A-PRIME) water desalination technologies to support a circular water economy, 2) identifying synergies and addressing barriers to coordinated operation of decarbonized water and energy systems, and 3) supporting the design and enforcement of water-energy policies.
Professor Mauter also serves as the research director for the National Alliance for Water Innovation, a $110-million DOE Energy-Water Desalination Hub addressing water security issues in the United States. The Hub targets early-stage research and development of energy-efficient and cost-competitive technologies for desalinating non-traditional source waters.
Professor Mauter holds bachelors degrees in Civil & Environmental Engineering and History from Rice University, a Masters of Environmental Engineering from Rice University, and a PhD in Chemical and Environmental Engineering from Yale University. Prior to joining the faculty at Stanford, she served as an Energy Technology Innovation Policy Fellow at the Belfer Center for Science and International Affairs and the Mossavar Rahmani Center for Business and Government at the Harvard Kennedy School of Government and as an Associate Professor of Engineering & Public Policy, Civil & Environmental Engineering, and Chemical Engineering at Carnegie Mellon University. -
Simona Meiler
Postdoctoral Scholar, Civil and Environmental Engineering
BioI am a weather and climate risk scientist, studying how hazard, exposure, and vulnerability interact to shape the risks and impacts of extreme weather events – both today and in a changing climate. My work combines modeling and systems thinking to explore a range of topics, including tropical cyclone risk, uncertainty and sensitivity analysis, human displacement, post-disaster recovery, and systemic risk. My approach is inherently interdisciplinary, with the goal of translating model insights into real-world applications that support climate-resilient decision-making.
I am currently a postdoctoral researcher at Stanford University, supported by an SNSF Postdoc.Mobility fellowship, working with Prof. Jack W. Baker. I completed my PhD at ETH Zurich in weather and climate risk modeling, with a focus on global tropical cyclone risk and uncertainty quantification, under the supervision of Prof. David N. Bresch. -
Marek Miltner
Affiliate, Program-Rajagopal, R.
BioMarek is a researcher and postgraduate student in the fields of Artificial Intellignence for Energy Sustainability, and Technology Policy connected to it. He has also been teaching Computer Science courses at university level since 2018, and at Stanford since 2020.
He has received an MPhil in Technology Policy from the University of Cambridge (UK), and an MEng in Innovation Management and Artificial Intelligence from Czech Technical University (EU). In the past, he has led a research team that built the first autonomous electric vehicle in the Czech Republic. -
Eduardo Miranda
Professor of Civil and Environmental Engineering
Current Research and Scholarly InterestsRegional seismic risk assessment, ground motion directionality
