David S. Sholl

David S.  Sholl

David S. Sholl

Professor, School of Chemical and Biomolecular Engineering

Sholl’s research focuses on materials whose macroscopic dynamic and thermodynamic properties are strongly influenced by their atomic-scale structure. Much of this research involves applying computational techniques such as molecular dynamics, Monte Carlo simulations and quantum chemistry methods to materials of interest. Although the group's work is centered on computational methods, it involves extensive collaboration with experimental groups and industrial partners.

david.sholl@chbe.gatech.edu

404.894.2822

Office Location:
ES&T 2214

ChBE Profile Page

  • Sholl Research Group
  • Google Scholar

    Research Focus Areas:
  • Biobased Materials
  • Biochemicals
  • Biorefining
  • Computational Materials Science
  • Fuels & Chemical Processing
  • Pulp & Paper Manufacturing
  • Sustainable Manufacturing
  • Additional Research:
    Metal-Organic Frameworks; Separation Membranes; Separations Technology; Carbon Capture; Hydrogen; SMART Manufacturing; Sustainable Manufacturing; Biochemicals

    IRI Connections:

    Christopher Jones

    Christopher Jones

    Christopher Jones

    Professor and John F. Brock III School Chair, School of Chemical and Biomolecular Engineering

    Chris Jones was born in suburban Detroit, Michigan in July of 1973. After his primary and secondary schooling and 14 years living Troy, Michigan, he enrolled as a chemical engineering student at the University of Michigan. In route to earning a BSE in chemical engineering, Chris carried out research on transition metal carbide and nitride catalytic materials under the direction of Levi Thompson. After graduating in 1995, Chris moved to Pasadena, California, to study inorganic materials chemistry and catalysis under Mark E. Davis at Caltech. There he earned M.S. and Ph.D. degrees in chemical engineering in 1997 and 1999, respectively. Subsequently, he studied organometallic chemistry and olefin polymerization under the direction of both Davis and John E Bercaw at Caltech. He started as an assistant professor at Georgia Tech in the summer of 2000 and was promoted to associate professor in July 2005. In May, 2005, he was appointed the J. Carl and Sheila Pirkle Faculty Fellow, followed by a promotion to professor in July 2008. He was named New-Vision Professor of Chemical and Biomolecular Engineering in July 2011. In 2015, he became the Love Family Professor of Chemical and Biomolecular Engineering, and in 2019 the William R. McLain Chair. Chris was named the associate vice president for research at Georgia Tech in November 2013. In this role, he directed 50% of his time on campus-wide research administration with a primary focus on interdisciplinary research efforts and policy related to research institutes, centers and research core facilities. In 2018, he served as the interim executive vice-president for research, before returning full time to his research and teaching roles in chemical and biomolecular engineering in 2019.

    Jones directs a research program focused primarily on catalysis and CO2 separation, sequestration and utilization. A major focus of his laboratory is the development of materials and processes for the removal of CO2 from air, or “direct air capture” (DAC). In 2010 he was honored with the Ipatieff Prize from the American Chemical Society for his work on palladium catalyzed Heck and Suzuki coupling reactions. That same year, he was selected as the founding Editor-in-Chief of ACS Catalysis, a new multi-disciplinary catalysis journal published by the American Chemical Society. In 2013, Chris was recognized by the North American Catalysis Society with the Paul E. Emmett Award in Fundamental Catalysis and by the American Society of Engineering Education with the Curtis W. McGraw Research Award. In 2016 he was recognized by the American Institute of Chemical Engineers with the Andreas Acrivos Award for Professional Progress in Chemical Engineering, distinguishing him as one of the top academic chemical engineers under 45. In 2020, after ten years building and leading ACS Catalysis, he was selected as the founding Editor-in-Chief of JACS Au by an international editorial search committee commissioned by the ACS. Dr. Jones has been PI or co-PI on over $72M in sponsored research in the last seventeen years, and as of December 2020, has published over 300 papers that have been cited >28,000 times. He has an H-Index of 82 (Google Scholar).

    cjones@chbe.gatech.edu

    404.385.1683

    Office Location:
    ES&T 2202

    ChBE Profile Page

  • Jones Group Website
  • Google Scholar

    Research Focus Areas:
  • Fuels & Chemical Processing
  • Materials for Energy
  • Renewable Energy
  • Additional Research:
    CO2 capture, catalysis, membrane and separations, separations technology, catalysis, carbon capture, biofuels

    IRI Connections:

    Andrew Medford

    Andrew Medford

    Andrew Medford

    Assistant Professor

    Dr. Medford is interested in leveraging materials informatics, statistics, and machine learning to maximize the practical impact of fundamental atomic-scale simulations in the field of surface science and catalysis. His research areas include heterogeneous catalysis, oxide surface chemistry, density functional theory, kinetic models, uncertainty quantification, and Bayesian optimization and inference.

    andrew.medford@chbe.gatech.edu

    (404) 385-5531

    Website

    Research Focus Areas:
  • Biobased Materials
  • Biochemicals
  • Biorefining
  • Biotechnology
  • Fuels & Chemical Processing
  • Hydrogen Production
  • Hydrogen Utilization
  • Materials & Manufacturing
  • Pulp Paper Packaging & Tissue
  • Sustainable Manufacturing
  • Additional Research:
    Catalysis, Biochemicals, Biorefining, Chemistry, Sugars, Molecular Simulations, Computational Biology

    IRI Connections:

    David Flaherty

    David Flaherty

    David Flaherty

    Thomas C. DeLoach Jr. Endowed Professorship
    Professor

    David Flaherty, PhD is a Professor in the School of Chemical and Biomolecular Engineering at Georgia Tech since June 2023 (starting Summer 2023, previously at the University of Illinois, Urbana-Champaign). His research focuses on developing the science and application of catalysis in the pursuit of sustainability. In recent years, his group’s contributions have been featured in Science, Nature Catalysis, Journal of the American Chemical Society, ACS Catalysis, Journal of Catalysis and other prestigious journals. Dr. Flaherty has received several recognitions for excellence and innovation in catalysis including the Eastman Foundation Distinguished Lecturer in Catalysis, Department of Energy Early Career Award, and the National Science Foundation CAREER Award. Dr. Flaherty engages frequently with industry to translate the groups scientific achievements from the lab into practice. Through university-industry partnerships, the group has filed multiple patents disclosing synthesis of catalytic materials and development of processes. Beyond his research activities, Dr. Flaherty enjoys teaching topics in chemical engineering in the classroom (kinetics, separations, transport, reaction engineering) and mentoring the next generation of research leaders and educators.

    Prof. Flaherty received his B.S. in Chemical Engineering from the University of California, Berkeley and his Ph.D. in Chemical Engineering from the University of Texas at Austin under the direction of Prof. C. Buddie Mullins. He conducted postdoctoral work at the University of California, Berkeley with Prof. Enrique Iglesia.

    dflaherty3@gatech.edu

    404-894-5922

    Office Location:
    Ford ES&T 2204

    Website

  • ChBE Profile
  • Research Focus Areas:
  • Energy
  • Materials and Nanotechnology
  • Sustainable Engineering

  • IRI Connections:
    IRI And Role

    Pamela Peralta-Yahya

    Pamela Peralta-Yahya

    Pamela Peralta-Yahya

    Associate Professor, School of Chemistry and Biochemistry

    Peralta-Yahya has been part of Georgia Tech since 2012. Her diverse research group composed of chemists, biologists, and chemical engineers works in the area of engineering biology, drawing from principles of biochemistry and engineering to build systems for chemical detection and production. Specifically, her group focuses on the development of G protein-coupled receptors for biotechnology and biomedical applications, and the engineering of biological systems for the production of fuels and functionalized plant natural products. Early on, her work was recognized with several awards including a DARPA Young Faculty Award, a DuPont Young Professor Award, a Kavli Fellowship by the US Academy of Science, and an NIH MIRA award. Her group’s key accomplishments are 1) the standardization of GPCR-based sensors in yeast to reduce the cost and accelerate the pace of drug discovery for these receptors, which are the target of over 30% of FDA approved drugs, and 2) the development of advanced biofuels, including pinene, which, when dimerized, has sufficient energy content to power rockets and missiles.  Today, her group is funded to work on these and other cutting edge areas – including how to power a rocket returning from Mars and how to make synthetic cells learn without evolution – by the National Institutes of Health, the National Science Foundation, the Department of Energy, and NASA.

    pperalta-yahya@chemistry.gatech.edu

    404.894.4228

    Office Location:
    MoSE 2100P

    Chem & BioChem Profile Page

  • Peralta-Yahya Group
  • Google Scholar

    Research Focus Areas:
  • Biobased Materials
  • Biochemicals
  • Biorefining
  • Biotechnology
  • Chemical Biology
  • Pulp Paper Packaging & Tissue
  • Renewable Energy
  • Sustainable Manufacturing
  • Additional Research:
    Bio-Inspired Materials; Biofuels; Cell biophysics; Cellular Materials; Biochemistry; Biomanufacturing; Energy; Biomaterials

    IRI Connections:

    Hang Lu

    Hang Lu

    Hang Lu

    Associate Dean for Research and Innovation, College of Engineering
    C. J. "Pete" Silas Chair, School of Chemical and Biomolecular Engineering

    Hang Lu received her B.S. from the University of Illinois, Urbana-Champaign and her M.S.C.E.P and Ph.D. from the Massachusetts Institute of Technology. She is currently the Associate Dean for Research and Innovation in the College of Engineering and C. J. "Pete" Silas Chair, School of Chemical & Biomolecular Engineering at the Georgia Institute of Technology. Lu's research interests involve the interface of engineering and biology and her lab, the Lu Fluidics Group, is conducting research at these interface levels. The Lu Fluidics Group engineers BioMEMS (Bio Micro-Electro-Mechanical System) and microfluidic devices to address questions in neuroscience, cell biology, and biotechnology that are difficult to answer using conventional techniques.

    Faces of Research - Profile Article

    hang.lu@gatech.edu

    404.894.8473

    Office Location:
    EBB 3017

    Lµ Fluidics Group

  • ChBE Profile Page
  • Google Scholar

    Research Focus Areas:
  • Big Data
  • Cancer Biology
  • Chemical Biology
  • Drug Design, Development and Delivery
  • Nanomaterials
  • Neuroscience
  • Regenerative Medicine
  • Systems Biology
  • Additional Research:

    Microfluidic systems for high-throughput screens and image-based genetics and genomicsSystems biology: large-scale experimentation and data miningMicrotechnologies for optical stimulation and optical recordingBig data, machine vision, automationDevelopmental neurobiology, behavioral neurobiology, systems neuroscienceCancer, immunology, embryonic development, stem 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:

    Udita Ringania

     Udita Ringania

    Udita Ringania

    Ph.D. Student, ChBE

    Udita Ringania is a Ph.D. candidate in the school of Chemical and Biomolecular Engineering at Georgia Tech, advised by Dr. Saad Bhamla. Her research focuses on developing a sustainable, energy-efficient, low cost and easily scalable alternative for drying/dewatering cellulose nanomaterials, a high value forest product. She is the recipient of the 2020-2021 Blue Sky Young Researcher and Innovation Award presented by the International Council of Forest and Paper Associations (ICFPA). She has served as a leadership coach for Georgia Tech students through the LEAD program (2019-2021) and was a board member for AChEGS (2019-2020), a student run organization for graduate students. She holds a Master’s degree (2018) from the Indian Institute of Technology, Kharagpur, and an undergraduate degree (2015) from the National Institute of Technology, Rourkela, India, both in Chemical Engineering. She loves plants, volunteers at Trees Atlanta, and recently started running to help raise funds for the education of underprivileged children in India.

    Advisor: Saad Bhamla



    IRI Connections:

    Matthew Realff

    Matthew Realff

    Matthew Realff

    Professor
    David Wang Sr. Fellow
    Associate Director, RBI
    SEI Lead: Circular Carbon Economy; RBI Lead: Next Generation Refinery

    Dr. Realff’s broad research interests are in the areas of process design, simulation, and scheduling. His current research is focused on the design and operation of processes that minimize waste production by recovery of useful products from waste streams, and the design of processes based on biomass inputs. In particular, he is interested in carbon capture processes both from flue gas and dilute capture from air as well as the analysis and design of processes that use biomass.

    matthew.realff@chbe.gatech.edu

    (404) 894-1834

    Departmental Bio

  • 2023 Initiative Lead Profile
  • Research Focus Areas:
  • Biobased Materials
  • Biochemicals
  • Biorefining
  • Biotechnology
  • Fuels & Chemical Processing
  • Pulp Paper Packaging & Tissue
  • Renewable Energy
  • Sustainable Manufacturing
  • Use & Conservation
  • Additional Research:
    Biofuels; Carbon Capture; Separations Technology; System Design & Optimization; SMART Manufacturing; Energy & Water; Separation Technologies; Biochemicals; Chemical Feedstocks; Sugars; Lignin & Hemicellulose; Biofuels

    IRI Connections:

    Peter Ludovice

    Peter Ludovice

    Peter Ludovice

    Associate Professor

    pete.ludovice@chbe.gatech.edu

    (404) 894-1835

    Research Website

  • http://chbe.gatech.edu/people/peter-j-ludovice
  • Google Scholar

    Research Focus Areas:
  • Biobased Materials
  • Biochemicals
  • Biorefining
  • Biotechnology
  • Computational Materials Science
  • Pulp Paper Packaging & Tissue
  • Sustainable Manufacturing
  • Additional Research:
    Materials and Nanotechnology; Complex Systems; Biotechnology

    IRI Connections: