Explore the ICCDU 2022 program schedule here!
ICCDU 2022 will be a Gordon Style Conference
Stay tuned for the announcement of afternoon activities!
Plenary Speakers
Keynote Speakers:
Dr. Bill Tumas (NREL)
Dr. Nick DeCristofaro (Solidia)
Dr. Robert Kumpf (Deloitte)
Ms. Susan Fancy (Global CO2 Initiative, U of Mich.)
Mr. Kyle Teamey (Breakthrough Energy Ventures)
Prof. Surya Prakash (Univ. of Southern Calif.)
Prof. Peter Styring (University of Sheffield)
Dr. Mehmed Z. Ertem (BNL)
Prof. Alexis Bell (UC Berkeley)
Contributed Oral Presentations:
Presenting Author | Institution(s) | Title |
Session Topic |
Kevin Kung | University of British Columbia | Decentralized biochar production to profitably scale carbon removal and rural climate justice | Biotechnology and Hybrid CO2 Conversion |
Jeffrey Xu | Columbia University | Encapsulation of Nanoscale Organic Hybrid Materials (NOHMs) Within Electrospun Polymeric Nanofibers for Direct Air Capture | Carbon Capture |
Aryandokht Azari | University of Michigan | Evaluating the impact of using carbon-negative aggregates on the carbon footprint of concrete pavements | Carbon Capture |
Aryandokht Azari | University of Michigan | Feasibility study on biocontrol of cement industry CO2 emissions | Carbon Capture |
Ted von Hippel | Embry Riddle Aeronautical University | Direct air capture of CO2 via adsorption and cooling | Carbon Capture |
Claudio J. A. Mota | Federal University of Rio de Janeiro | CO2 Capture over Chitosan impregnated over MCM-41 and SBA-15 Mesoporous Silicas | Carbon Capture |
Ammar Elhoweris | Gulf Organisation for Research and Development | Carbon-negative materials in construction: carbonate plaster | Carbon Capture |
Alessandra Zito | University of California-Irvine | Investigation of redox carriers for electrochemical carbon dioxide capture and concentration | Carbon Capture |
Caleb H. Geissler | Princeton University, DOE Great Lakes Bioenergy Research Center, Andlinger Center for Energy and the Environment | Optimization and analysis of biorefineries with carbon capture as a source of CO2 for utilization | Carbon Capture |
Mark Goldman | Columbia University | Enhancing CO2 adsorption and working capacity of 10% “Na2O”/γ − Al2O3 granules through doping and novel pretreatment | Carbon Capture |
Minjae Kim | Korea university | Simplified hydrophobic ODTMS functionalization on zeolite 13X for indoor CO2 capture application | Carbon Capture |
Monica J. Abdallah | Columbia University in the City of New York | Dual function materials (DFMs) for CO2 direct air capture (DAC) and catalytic conversion to renewable methane | Carbon Capture |
Federico Atzori | CRS4 (Center for Advanced Studies, Research and Development in Sardinia), Pula (CA), Italy | CO2 absorption using aqueous NH3: novel dynamic modeling of experimental outcomes for the improvement of capture system | Carbon Capture |
Hyungseop Ahn | Korea university | Fabrication of hierarchically layer-by-layer frameworks composed of HKUST-1 and polyethylenimine-grafted SBA-15 for CO2 capture enhancement | Carbon Capture |
Aaron Smith | University of Kentucky Center for Applied Energy Research | Use of statistical process control (SPC) in analysis of CO2 capture system performance | Carbon Capture |
George Dowson | UK Centre for Carbon Dioxide Utilisation, The University of Sheffield | Project SUSTAIN: Using above-ambient pressure for CO2 refining and capture at scale with small footprint | Carbon Capture |
Tobias Stegmaier | KIT Engler-Bunte-Institut ceb, DVGW-Forschungsstelle am Engler-Bunte-Institut | Ionic liquid-based CO2 absorption technology for direct air capture | Carbon Capture |
James Leong | Columbia University, University of Notre Dame | Natural carbon capture in ultramafic bodies: Sink or source of greenhouse gas? | Carbon Capture |
Luíza Marques | c5Lab – Sustainable Construction Materials; Instituto Superior Técnico/Universidade de Lisboa | Ca-looping process using limestones and wastes of marble powder for CO2 capture from industrial flue gas | Carbon Capture |
Carla Isabel Costa Pinheiro | Instituto Superior Técnico/Universidade de Lisboa | Supported MgO sorbents promoted by ternary alkali metal salts for CO2 capture: effect of CaCO3 and CeO2 addition | Carbon Capture |
Dongjae Kim | Columbia University | Investigation of Sorbent Regeneration Technology based on Non-Thermal Energy Transfer for CO2 Capture | Carbon Capture |
Jonah Williams | Columbia University, Massachusetts Institute of Technology | Hybrid thermo-electrochemical conversion of plastic wastes commingled with marine biomass to sequester carbon and produce hydrogen | Carbon Capture |
Xiaoyang Shi | Earth and Environmental Engineering, Columbia University | Development of encapsulated Metal Organic Frameworks (MOFs) for Direct Air Capture with water rejection | Carbon Capture |
Jenny Yang | University of California, Irvine | Oxygen stable electrochemical CO2 capture and concentration through alcohol additives | Carbon Capture |
Professor Anthony O’Mullane | Queensland University of Technology | Permanent carbon dioxide removal via chemical conversion to valuable non-combustible products | Carbon Mineralization |
Ning Zhang | Columbia University | Production of high purity calcium carbonates with controlled polymorphs from alkaline industrial wastes via carbon mineralization | Carbon Mineralization |
Till Strunge | a) Institute for Advanced Sustainability Studies e.V., b) Research Centre for Carbon Solutions, School of Engineering and Physical Sciences |
Finding a business case for CO2 mineralization in the European cement industry | Carbon Mineralization |
Brian Mueller | Semplastics DioQuest(tm) | Efficient Carbon Dioxide Capture and Utilization Using High TDS Geological Water | Carbon Mineralization |
Daniel Kopp | Rutgers, The State University of New Jersey | Sustainable processing of composite materials | Carbon Mineralization |
Soyoung Choi | Columbia University | Implications on geological CO2 mineralization: crystal structure changes and reaction kinetics of olivine carbonation | Carbon Mineralization |
Greeshma Gadikota | Cornell University | Enhanced H2 recovery from renewable resources via carbon mineralization | Carbon Mineralization |
Greeshma Gadikota | Cornell University | Towards closing materials cycles in mining, steel, and cement making by harnessing CO2 emissions for carbon mineralization | Carbon Mineralization |
Seokyoon Moon | Columbia University | CO2 Utilization integrated with Valuable Elements Recovery by pH Swing Assisted Carbonation of Industrial Wastes | Carbon Mineralization |
Dharmjeet Madhav | KU Leuven, Belgium | Green, ambient, highly efficient CO2 capture and simultaneous mineralization to functional carbonates | CO2 in Solid and Liquid State Chemistry |
Tse-Lun Chen | Graduate Institute of Environmental Engineering, National Taiwan University | Kinetic study on aqueous leaching-carbonation process of CO2 mineralization using alkaline solid wastes | CO2 in Solid and Liquid State Chemistry |
Matthias Heßelmann | RWTH Aachen University, Chemical Process Engineering; DWI Leibniz-Institute for Interactive Materials | Elucidating the paths of CO2 in gas diffusion electrodes for electrochemical CO2 reduction | Electrochemical Photoelectrochemical Photochemical CO2 conversion |
Christine Phipps | University of Louisville | Increasing the basicity of a CO2 capture and reduction complex | Electrochemical Photoelectrochemical Photochemical CO2 conversion |
Bjorn Hasa | University of Delaware | Anion exchange membranes: CO electroreduction | Electrochemical Photoelectrochemical Photochemical CO2 conversion |
Pooya Hosseini-Benhangi | Agora Energy Technologies Ltd., The University of British Columbia | CO2 redox flow battery: An investigation of the membrane and bifunctional electrocatalysts towards enhancing the battery performance | Electrochemical Photoelectrochemical Photochemical CO2 conversion |
Karin Calvinho | RenewCO2 | Eletrocatalytic Reduction of CO2 | Electrochemical Photoelectrochemical Photochemical CO2 conversion |
Jeannie Tan | Heriot-Watt University | Electrosynthesis of Ethylene from CO2-derived Syngas Using Nanostructured Cu | Electrochemical Photoelectrochemical Photochemical CO2 conversion |
Charles W. Machan | University of Virginia – Department of Chemistry | Earth-abundant molecular catalyst systems for the reduction of carbon dioxide | Electrochemical Photoelectrochemical Photochemical CO2 conversion |
Amelia G. Reid | University of Virginia | Improving co-electrocatalytic activity for CO2 reduction at lower overpotentials through redox mediator tuning and catalyst design | Electrochemical Photoelectrochemical Photochemical CO2 conversion |
Charles Dismukes | Rutgers University | Bulk Chemicals and Fuels without Fossil Precursors: Decarbonizing Manufacturing by Electrochemical Synthesis from Carbon Dioxide | Electrochemical Photoelectrochemical Photochemical CO2 conversion |
Kevin E. Rivera Cruz | University of Michigan | Increasing the CO2 reduction activity of cobalt phthalocyanine by modulating cobalt nucleophilicity by varying σ-donor strength of axially coordinating ligands | Electrochemical Photoelectrochemical Photochemical CO2 conversion |
Craig Grapperhaus | University of Louisville | Pb-catalyzed Electroreduction of CO2 to Methyl Formate | Electrochemical Photoelectrochemical Photochemical CO2 conversion |
Elod Gyenge | University of British Columbia, Vancouver, Canada | CO2 Utilization in Electrochemical Power Sources | Electrochemical Photoelectrochemical Photochemical CO2 conversion |
Robert B. Wexler | Princeton University | Intuitive materials design for solar thermochemical carbon dioxide splitting | Electrochemical Photoelectrochemical Photochemical CO2 conversion |
Lucas Hoof | Fraunhofer UMSICHT, Oberhausen/Germany; | Heat it, Press it, Twist it: Hidden parameters for electrochemical carbon dioxide reduction in zero-gap electrolyzers | Electrochemical Photoelectrochemical Photochemical CO2 conversion |
Kai junge Puring | Fraunhofer UMSICHT, Department for Electrosynthesis | Scaling zero-gap CO2 electrolysis: from lab-scale and impure CO2 feeds to kW-scale demonstration | Electrochemical Photoelectrochemical Photochemical CO2 conversion |
Davide Michele Stefano Marcolongo | Department of Chemistry, University of Bari Aldo Moro, Interuniversity Consortium Chemical Reactivity and Catalysis, Valenzano (BA), IT | Wet chemical synthesis and spectroscopic/electrochemical characterization of metal oxides nanocomposites aimed to CO2-H2O photocatalytic coprocessing | Electrochemical Photoelectrochemical Photochemical CO2 conversion |
Ashley Hughes | Tu/e | Promotion of CO2 dissociation in microwave plasmas by coupling with nitrogen fixation | Electrochemical Photoelectrochemical Photochemical CO2 conversion |
Sara T. Hamilton | Columbia University | Probing electrode-electrolyte interfaces of structured nano-scale electrolytes for combined CO2 capture and conversion | Electrochemical Photoelectrochemical Photochemical CO2 conversion |
Feng Jiao | University of Delaware | Electrocatalysis for Carbon Dioxide Utilization | Electrochemical Photoelectrochemical Photochemical CO2 conversion |
Steve P Cronin | Princeton | Direct synthesis of 1-butanol in high yields from CO2 utilizing cascade catalysis from a nickel enhanced (Cr2O3)3Ga2O3 system | Electrochemical Photoelectrochemical Photochemical CO2 conversion |
Simon Voelker | Institute of Technical Thermodynamics, RWTH Aachen University | Environmental potential of CO2-based polyoxymethylene ethers as diesel blends | Social, Business, & Policy Aspects of CO2 Sequestration & Utilization |
Stephen McCord | 1 UK Centre for Carbon Dioxide Utilisation, University of Sheffield, 2 Global CO2 Initiative, University of Michigan 3 Energy and Process Systems Engineering, ETH Zurich, 4 Institute for Advanced Sustainability Studies (IASS), 5 Institute of Chemistry, Technische Universität Berlin, |
TEA & LCA guidelines for CCU version 2.0 | Social, Business, & Policy Aspects of CO2 Sequestration & Utilization |
Kristina Fürst | Institute for Advanced Sustainability Studies | Carbon capture and utilization: The hidden industrial decarbonization strategy? | Social, Business, & Policy Aspects of CO2 Sequestration & Utilization |
Ignacio Jorge Castellanos-Beltran | Université de Sherbrooke | Bottom-to-top methodology to estimate the embedded carbon footprint of unit operations of a PtX technology to produce methanol | Social, Business, & Policy Aspects of CO2 Sequestration & Utilization |
Simon Kaiser | University of Kassel | CO2-based value chains for polymer products | Social, Business, & Policy Aspects of CO2 Sequestration & Utilization |
Finn-Erik Digulla | Universität Kassel | Comparative Life Cycle Assessment of industrial CO2 mineralization using different feedstock materials | Social, Business, & Policy Aspects of CO2 Sequestration & Utilization |
Haresankar Jayasankar | National University of Ireland Galway | Characterization of CCS cluster zones and hubs using K-means clustering approach | Social, Business, & Policy Aspects of CO2 Sequestration & Utilization |
Alex JK Newman | The University of Sheffield | Development of a novel ‘hub and spoke’ framework for the holistic sustainability assessment of complex chemical supply chains | Social, Business, & Policy Aspects of CO2 Sequestration & Utilization |
Edward Platt | The University of Sheffield | Sustainability risk assessment for chemical production: the definition of sustainability risk assessment metrics and the development of a risk-based screening tool | Social, Business, & Policy Aspects of CO2 Sequestration & Utilization |
Till Strunge | a) Institute for Advanced Sustainability Studies e.V. b) Research Centre for Carbon Solutions, School of Engineering and Physical Sciences |
A tutorial case study on the use of uncertainty analysis methods for techno-economic assessment of CO2 utilization technologies: The case of CO2 mineralization. | Social, Business, & Policy Aspects of CO2 Sequestration & Utilization |
Josh Schaidle | National Renewable Energy Laboratory | Electrifying the Production of Sustainable Aviation Fuel: The Risks, Economics, and Environmental Benefits of Emerging Pathways Including CO2 | Social, Business, & Policy Aspects of CO2 Sequestration & Utilization |
Igor F. Pereira | University of São Paulo | CO2 Electroreduction plant to produce chemical building blocks: the brazilian scenario as a promising way to carbon abatement | Social, Business, & Policy Aspects of CO2 Sequestration & Utilization |
Eunji Yoo | Argonne National Laboratory, National Renewable Energy Laboratory | Toward net-zero carbon fuels through carbon capture, utilization, and sequestration: a life-cycle analysis | Social, Business, & Policy Aspects of CO2 Sequestration & Utilization |
Elin Malmgren | Chalmers Univeristy of Technology | Climate impact analysis of various carbon pathways for onboard carbon capture systems in shipping | Social, Business, & Policy Aspects of CO2 Sequestration & Utilization |
Gael Gobaille-Shaw | Mission Zero Technologies Ltd., Deep Science Ventures Ltd. | How to build a successful technology start-up. | Social, Business, & Policy Aspects of CO2 Sequestration & Utilization |
Emily A. Carter | Princeton University (Carter), National Academies of Sciences, Engineering, and Medicine (Wise and Zeitler) | National Academies Congressionally Mandated Study on Carbon Utilization Infrastructure, Markets, and RD&D | Social, Business, & Policy Aspects of CO2 Sequestration & Utilization |
Sheikh Moni | National Energy Technology Laboratory, NETL support Contractor | Life cycle analysis of emerging CO2 utilization technologies: challenges and current best practices | Social, Business, & Policy Aspects of CO2 Sequestration & Utilization |
Ioanna Dimitriou | University of Nottingham | Production of dimethyl ether from carbon dioxide reforming: techno-economic and environmental assessment | Social, Business, & Policy Aspects of CO2 Sequestration & Utilization |
Michele Aresta | IC2R-Innovative Catalysis for Carbon Recycling | The extraordinary future of CO2 as raw material for E-fuels, Solar-Fuels, RF-NBO, and Biofuels | Social, Business, & Policy Aspects of CO2 Sequestration & Utilization |
Markus Laitinen | Aalto University | Heat transfer in a bench-scale methanol reactor | Thermal Chemistry CO2 to Chemicals |
David Kuss | RWTH Aachen University & Max Planck Institute for Chemical Energy Conversion | Catalytic hydrogenation of carbon dioxide to methanol with manganese pincer complexes: concept and mechanistic understanding | Thermal Chemistry CO2 to Chemicals |
John J Marano PhD | JM Energy Consulting, Pittsburgh PA (presenter) Narion Corporation, Seattle WA (co-author) | Seeking New Options for Carbon Utilization & Storage – Novel Oxides of Carbon | Thermal Chemistry CO2 to Chemicals |
Kwang-Deog Jung | Korea Institute of Science and Technology | Investigation on key factors to design heterogeneous catalysts for production of formic acid from CO2. | Thermal Chemistry CO2 to Chemicals |
Claudio J. A. Mota | Federal University of Rio de Janeiro | CeO2-decorated α-Fe2O3 nanorings for CO2 conversion to dimethyl carbonate | Thermal Chemistry CO2 to Chemicals |
Chunshan Song | The Chinese University of Hong Kong | Plasma-enhanced conversion of CO2 and CH4 to high-value oxygenates using bimetallic catalyst | Thermal Chemistry CO2 to Chemicals |
Chunshan Song | The Chinese University of Hong Kong | Double DBD plasma catalytic CO2 hydrogenation to methanol and ethanol | Thermal Chemistry CO2 to Chemicals |
Taofeeq Bello | Escola Politecnica Universidade de Sao Paulo | Mechanistic study on conversion of carbon dioxide into formic acid promoted by ionic liquid | Thermal Chemistry CO2 to Chemicals |
Yikyeom Kim | Korea Advanced Institute of Science and Technology | Synergistic effect of B-site elements in La2NiFeO6 double perovskite for CO2 conversion in redox cycles | Thermal Chemistry CO2 to Chemicals |
Yikyeom Kim | Korea Advanced Institute of Science and Technology, Yeungnam University | Enhanced cycling stability of metal oxide-perovskite composite in chemical looping CO2 splitting | Thermal Chemistry CO2 to Chemicals |
Xiaoxing Wang | Pennsylvania State University, Sichun University | Investigation of plasma–catalyst synergy in plasma-enhanced CO2 hydrogenation on supported cobalt catalyst | Thermal Chemistry CO2 to Chemicals |
Soraya Sluijter | TNO | Efficient CO2 utilization by Sorption-Enhanced DME Synthesis (SEDMES) | Thermal Chemistry CO2 to Chemicals |
Judit Nyári | Aalto University | Choosing the right kinetic model for techno-economic analyses of CCU processes – the case of CO2 hydrogenation to methanol | Thermal Chemistry CO2 to Chemicals |
Jie Zhu | Dalian University of Technology | Dynamic structural evolution of iron catalysts during CO2 hydrogenation to hydrocarbons | Thermal Chemistry CO2 to Chemicals |
Mauro Mureddu | Sotacarbo S.p.A. | New frontier on the use of nanocatalysts without activation step: a case study on a Cu-CuO/ZnO/ZrO2@SBA-15 nanocatalyst for CO2 reuse | Thermal Chemistry CO2 to Chemicals |
Hernan E. Delgado | Argonne National Laboratory | Potential production capacity of synthetic Fischer-Tropsch/methanol fuels using captured CO2 from industrial and power sources | Thermal Chemistry CO2 to Chemicals |
Aaron M. Appel | Pacific Northwest National Laboratory | Role of Solvent in the Hydrogenation of CO2 using Molecular Complexes | Thermal Chemistry CO2 to Chemicals |
Wai Ming Hui | National University of Singapore | Single Cu atom on hydroxyapatite catalyst for CO2 hydrogenation to methanol | Thermal Chemistry CO2 to Chemicals |
Kira R. Ehmann | Department of Molecular Catalysis, Max Planck Institute for Chemical Energy Conversion; Institute for Technical and Macromolecular Chemistry, RWTH Aachen University | Carbon dioxide hydrogenation to formic acid – recyclable catalyst phase and self-separating product | Thermal Chemistry CO2 to Chemicals |