Marcus Foston
Center Director & Associate Professor of Energy, Environmental & Chemical Engineering
Director of Diversity Initiatives
Washington University in St. Louis
- Email: mfoston@nospam.wustl.edu
Huyen Nguyen
Administrative Coordinator, SMARC & CEMB
Department of Energy, Environmental & Chemical Engineering
Washington University in St. Louis
- Email: hbnguyen@nospam.wustl.edu
FACULTY DIRECTORY
Marcus Foston
Center Director & Associate Professor of Energy, Environmental & Chemical Engineering
Director of Diversity Initiatives
Washington University in St. Louis
- Email: mfoston@wustl.edu
Marcus Foston’s research seeks to develop innovative and novel routes to exploit and utilize lignocellulosic biomass, taking advantage of materials involved in industries such as agriculture, papermaking, and forestry products.
Roman Garnett
Associate Professor of Computer Science & Engineering
Washington University in St. Louis
- Email: garnett@wustl.edu
Professor Garnett’s main research interest is developing new Bayesian machine-learning techniques for sequential decision making under uncertainty. He is particularly interested in active learning—especially with atypical objectives—Bayesian optimization, intelligent approaches to approximate Bayesian inference, and Bayesian quadrature. He is also interested in learning problems involving large-scale graph data.
Guy Genin
Harold and Kathleen Faught Professor of Mechanical Engineering
Department of Mechanical Engineering & Materials Science
Co-Director, Center for Engineering Mechanobiology
Washington University in St. Louis
- Email: genin@wustl.edu
Guy Genin studies interfaces and adhesion in nature, physiology, and engineering. His current research focuses on interfaces between tissues at the attachment of tendon to bone, between cells in cardiac fibrosis, and between protein structures at the periphery of plant and animal cells.
Sinan Keten
Professor and Associate Chair of Mechanical Engineering and Civil and Environmental Engineering and (by courtesy) Biomedical Engineering
Northwestern University
- Email: s-keten@northwestern.edu
My research expertise is on computational materials science and mechanics, emphasizing two areas: (1) nanostructured polymeric materials and (2) biomolecular and bioinspired materials. My career goal is to establish theory and simulation-driven approaches to understanding the physics of soft materials at multiple-length scales, typically utilizing molecular dynamics and theoretical approaches.
Mark Mba-Wright
Associate Professor of Mechanical Engineering,
Iowa State University
- Email: markmw@iastate.edu
Energy Systems Analysis: We investigate the cost and performance of energy systems. Our research interests include techno-economics, process modeling, and energy conversion. Recent projects investigated the costs and emissions of biomass conversion to gasoline and diesel.
Biomass Conversion Tenchnologies: We research novel ways of converting biomass into fuels. Our current research is on low-temperature thermochemical conversion (torrefaction and pyrolysis) of lignocellulosic biomass for the production of platform chemicals and fuels.
Stephen Ryan
Interim Senior Associate Dean of Doctoral Programs and Myron Northrop Professor of Economics
Washington University in St. Louis
- Email: stephen.p.ryan@wustl.edu
Stephen Ryan’s research interests include: industrial organization, applied microeconometrics, dynamic games, environmental regulation, health economics
Kelly Werder
Associate Professor in the Zimmerman School of Advertising and Mass Communications
University of South Florida
- Email: kgpage@usf.edu
Dr. Werder’s research expertise includes message strategy effects, corporate social responsibility, crisis management, leadership in public relations, and student learning outcomes assessment. She specializes in survey and experimental research methodologies.
Fuzhong Zhang
Center Co-Director & Professor of Energy, Environmental & Chemical Engineering
Washington University in St. Louis
- Email: fzhang29@wustl.edu
Fuzhong Zhang’s research focuses on developing synthetic biology tools and systems for the sustainable production of structurally-defined chemicals and high-performance materials. Current research projects include: (1) engineering microbial metabolic dynamics and heterogeneity; (2) engineering metabolic pathways to produce structure-defined biofuels and chemicals; (3) developing microbial factories to produce high-performance materials.