Thomas Fuller

Thomas Fuller

Thomas Fuller

Professor

Tom Fuller is Professor of Chemical Engineering at the Georgia Tech. Dr. Fuller received a BS from the University of Utah in Chemical Engineering in 1982. Dr. Fuller then served for five years in the U.S. Navy working as a Nuclear Engineer. In 1992 he obtained a Ph.D. from UC, Berkeley also in Chemical Engineering. 

Subsequently, Dr. Fuller developed advanced lithium batteries while working as a postdoctoral fellow at Lawrence Berkeley National Laboratory. He then moved to United Technologies. He was responsible for technology development, design, assembly, and test of cell stacks for UTC Fuel Cells. 

His research group at Georgia Tech is focused on durability challenges for electrochemical systems. For the last eight years Dr. Fuller has been a Technical Editor for the Journal of the Electrochemical Society. In 2009 Dr. Fuller was named a Fellow of the Electrochemical Society.

tom.fuller@chbe.gatech.edu

(404) 894-2898

ChBE Profile

  • Website
  • Google Scholar

    University, College, and School/Department
    Research Focus Areas:
  • Energy Generation, Storage, and Distribution
  • Energy Utilization and Conservation
  • Hydrogen Utilization
  • Materials for Energy
  • Additional Research:
    Electric Vehicles; Energy Storage; Hydrogen; Modeling; Materials Failure and Reliability; Energy Conversion; Energy Storage; Batteries; fuel cells

    IRI Connections:

    Carsten Sievers

    Carsten Sievers

    Carsten Sievers

    Professor, School of Chemical and Biomolecular Engineering
    RBI Initiative Lead: Maximizing the Value of Products from Plastics Upcycling

    Sievers’ research interests are in heterogeneous catalysis, reactor design, applied spectroscopy, and characterization and synthesis of solid materials. Combining these interests he seeks to develop processes for the production of fuels and chemicals. His research program combines fundamental and applied research.

    In fundamental studies, a suite of analytical and spectroscopic techniques (e.g. IR, NMR) is used to gain knowledge on structure-reactivity relationships of heterogeneous catalysts. Moreover, surface reactions are studied on a molecular level to identify reaction pathways over different catalysts. Information obtained from these studies provides the foundation for designing innovative catalysts.

    Applied studies focus specific catalytic processes. For these projects, continuously operated flow reactor systems are designed. Different catalysts are tested for reactivity, selectivity and stability and the influence of the operating conditions is investigated. Catalyst deactivation is studied in detail to develop suitable regeneration methods or to avoid deactivation entirely by improved catalyst design. Specific projects include hydrodeoxygenation of pyrolysis oils, selective hydration of polyols, conversion of sugars into lactic acid and ethylene glycol, and selective oxidation of methane.

    An important goal of Sievers’ research is to enable technology for utilization of alternative resources in order to reduce the current dependence of oil. Among these biomass is a particularly promising candidate because it is renewable and can be produced CO2 neutral.

    Sievers has contributed to 80 peer reviewed publications on heterogeneous catalysis in petroleum refining (isobutane/2-butene alkylation, fluid catalytic cracking, hydrotreating), alkane activation, supported ionic liquid as catalysts for fine chemical synthesis, and biomass processing.  He is Director and Past President of the Southeastern Catalysis Society, former Program Chair and Director of the ACS Division of Catalysis Technology & Engineering, former Director of the AIChE Division of Catalysis and Reaction Engineering, and Editor of Applied Catalysis A: General.

    carsten.sievers@chbe.gatech.edu

    404.385.7685

    Office Location:
    ES&T 2218

    ChBE Profile Page

  • Sievers Research Group
  • Google Scholar

    Research Focus Areas:
  • Biobased Materials
  • Biochemicals
  • Biorefining
  • Biotechnology
  • Fuels & Chemical Processing
  • Hydrogen Production
  • Materials for Energy
  • Pulp Paper Packaging & Tissue
  • Sustainable Manufacturing
  • Additional Research:
    Biomass; Biofuels; Catalysis; Advanced Characterization; Gasification; Biorefining; Lignin Upgrading; Catalysis; Energy & Water; Separation Technologies; Chemical Feedstocks; Sugars; Lignin & Hemicellulose

    IRI Connections:

    Alexander Oettl

    Alexander Oettl

    Alexander Oettl

    PhD Coordinator, Strategy & Innovation
    Co-Site Lead, CDL-Atlanta
    Associate Professor
    BBISS Lead: Sustainability at the Creative Destruction Lab

    Alex Oettl joined Scheller in 2009.  His research interests include the economics of innovation, knowledge spillovers, labor mobility, and economic geography.  His current work focuses on the production and diffusion of ideas at the individual, firm, and regional level.

    Professor Oettl's research has been published in Management Science, Organization Science, Nature, Journal of Financial Economics, Review of Economics and Statistics, Proceedings of the National Academy of Sciences (PNAS), Journal of Urban Economics, Research Policy, Journal of International Business Studies, profiled in multiple media outlets, and presented at business schools around the world. He is a Research Associate at the National Bureau of Economic Research and a recipient of the Kauffman Junior Faculty Fellowship in Entrepreneurship Research.

    alex.oettl@scheller.gatech.edu

    404-385-4570

    Departmental Bio

  • BBISS Initiative Lead Project - A Sustainability-Focused Stream of the Creative…
  • University, College, and School/Department
    Additional Research:
    Economics of InnovationProduction and Diffusion of Ideas

    IRI Connections:

    Michael Helms

    Michael Helms

    Michael Helms

    Co-Director, Center for Biologically Inspired Design
    Senior Research Scientist
    BBISS Lead: Biologically Inspired Design

    Michael Helms is a versatile professional with a backgrounds in cognitive science, design theory, technology consulting, computer programming and financial services. He completed a Ph.D. in Computer Science from Georgia Institute of Technology in 2013, and recently completed NSF's entrepreneurial I-CORPS program as an entrepreneurial lead. Prior to receiving his Ph.D., he worked as a technology consultant building business cases for the development of large data infrastructure projects. In conjunction with with the Center for Biologically Inspired Design he provides design consulting services focused on product innovation by leveraging insight gleaned from 3.8 billion years of evolution. Most recently, Helms began research with the Center for Education (CEISMC), working on modeling school interventions as complex social systems.

    mhelms3@gatech.edu

    Personal Site

  • BBISS Initiative Lead Project - Nature’s Voice: Amplifying the Narrative of Bio…
  • Research Focus Areas:
  • Climate & Environment

  • IRI Connections:

    Hailong Chen

    Hailong Chen

    Hailong Chen

    Associate Professor, Woodruff School of Mechanical Engineering
    BBISS Co-lead: Clean Energy Resources

    The research in Chen Group is cross-disciplinary, bridging mechanical engineering, chemistry, and materials science, focusing on electrochemical energy storage related materials and devices, as well as functional and structural metals/alloys. The technical expertise of the group include development and application of advance in situ characterization methods for energy storage devices, computation-aided materials design and novel synthesis methods for nanostructured materials.

    hailong.chen@me.gatech.edu

    404.385.5598

    Office Location:
    Love 329

    nanoACES

  • ME Profile Page
  • BBISS Initiative Lead Project - Sustainable Resources for Clean Energy
  • Google Scholar

    Research Focus Areas:
  • Materials and Nanotechnology
  • Materials for Energy
  • Additional Research:
    Materials Design, in situ characterization, energy conversion and Storage, batteries, and functional materials

    IRI Connections:

    Yilun Zha

     Yilun Zha

    Yilun Zha

    Ph.D. and M.S. Student, ARCH and STAT

    Yilun 'Elon' Zha is a planner, urban designer, and data scientist. As a Ph.D. student in urban design and Master’s student in statistics, Elon orients his research interest towards the quantitative analysis of urban (re)design and its role in environmental, economic, and social sustainability. His past experience includes a wide variety of urban design and planning practices in China and the United States. Currently, he is working with Professor Ellen Dunham-Jones on research exploring the strategies and unintended consequences of suburban retrofits. Prior to joining Georgia Tech, he earned his B.S. and M.S. degrees in City Planning from Tongji University in 2016 and 2019, respectively. In 2018, he also obtained a double Master's degree of Urban Design from Georgia Tech.

    Advisor: Ellen Dunham-Jones

    yilunzha@gatech.edu

    University, College, and School/Department

    IRI Connections: