2020 Annual Merit Review: Progress Updates
Hydrogen Fuel R&D
View Hydrogen Fuel R&D presentations prepared for the 2020 Annual Merit Review.
HydroGEN Consortium Overview
- HydroGEN Overview: A Consortium on Advanced Water Splitting Materials Huyen Dinh, National Renewable Energy Laboratory
- HydroGEN: Low-Temperature Electrolysis (LTE) and LTE/Hybrid Supernode Guido Bender, National Renewable Energy Laboratory
- HydroGEN: High-Temperature Electrolysis Supernode Gary Groenewold, Idaho National Laboratory
- HydroGEN: Photoelectrochemical (PEC) Hydrogen Production and PEC and OER Supernodes James Young, National Renewable Energy Laboratory
- HydroGEN: Solar Thermochemical Hydrogen (STCH) and STCH Supernode Anthony McDaniel, Sandia National Laboratories
- Benchmarking Advanced Water Splitting Technologies: Best Practices in Materials Characterization Kathy Ayers, Proton OnSite
Electrolysis Production
- High Temperature Alkaline Water Electrolysis Hui Xu, Giner, Inc.
- Proton-Conducting Solid Oxide Electrolysis Cells for Large-Scale Hydrogen Production at Intermediate Temperatures Prabhakar Singh, University of Connecticut
- Degradation Characterization and Modeling of a New Solid Oxide Electrolysis Cell Utilizing Accelerated Life Testing Scott Barnett, Northwestern University
- Thin-Film, Metal-Supported High-Performance and Durable Proton-Solid Oxide Electrolyzer Cell Tianli Zhu, United Technologies Research Center
- High Efficiency PEM Water Electrolysis Enabled by Advanced Catalysts, Membranes, and Processes Kathy Ayers, Nel Hydrogen
- Developing Novel Platinum Group Metal-Free Catalysts for Alkaline Hydrogen and Oxygen Evolution Reactions Sanjeev Mukerjee, Northeastern University
- PGM-Free OER Catalysts for PEM Electrolyzer Di-Jia Liu, Argonne National Laboratory
- High-Performance Ultralow-Cost Non-Precious Metal Catalyst System for AEM Electrolyzer Hoon Chung, Los Alamos National Laboratory
- Scalable Elastomeric Membranes for Alkaline Water Electrolysis Yu Seung Kim, Los Alamos National Laboratory
- Intermediate Temperature Proton-Conducting Solid Oxide Electrolysis Cells with Improved Performance and Durability Xingbo Liu, West Virginia University
- Development of Durable Materials for Cost Effective Advanced Water Splitting Utilizing All Ceramic Solid Oxide Electrolyzer Stack Technology John Pietras, Saint-Gobain
- Proton-Conducting Ceramic Electrolyzers for High-Temperature Water Splitting Hossein Ghezel-Ayagh, FuelCell Energy, Inc.
- High-Performance AEM LTE with Advanced Membranes, Ionomers, and PGM-Free Electrodes Paul A. Kohl, Georgia Institute of Technology
- Performance and Durability Investigation of Thin, Low Crossover Proton Exchange Membranes for Water Electrolyzers Andrew Park, The Chemours Company FC, LLC
- Pure Hydrogen Production through Precious-Metal-Free Membrane Electrolysis of Dirty Water, Shannon Boettcher, University of Oregon
- Advanced Coatings to Enhance the Durability of SOEC Stacks Neil Kidner, Nexceris, LLC
- Scalable High-Hydrogen Flux, Robust Thin Film Solid Oxide Electrolyzer Colin Gore, Redox Power Systems, LLC
- A Multifunctional Isostructural Bilayer Oxygen Evolution Electrode for Durable Intermediate-Temperature Electrochemical Water Splitting Kevin Huang, University of South Carolina
High Temperature Thermochemical Production
- Accelerated Discovery of STCH Hydrogen Production Materials via High-Throughput Computational and Experimental Methods Ryan O'Hayre, Colorado School of Mines
- Computationally Accelerated Discovery and Experimental Demonstration of High-Performance Materials for Advanced STCH Hydrogen Production Charles Musgrave, University of Colorado Boulder
- Transformative Materials for High-Efficiency Thermochemical Production of Solar Fuels Chris Wolverton, Northwestern University
- Mixed Ionic Electronic Conducting Quaternary Perovskites: Materials by Design for STCH Hydrogen Ellen Stechel, Arizona State University
- New High-Entropy Perovskite Oxides with Increased Reducibility and Stability for Thermochemical Hydrogen Generation Jian Luo, University of California, San Diego
- A New Paradigm for Materials Discovery and Development for Lower Temperature and Isothermal Thermochemical Hydrogen Production Jonathan Scheffe, University of Florida
Photoelectrochemical Production
- Best-in-Class Platinum Group Metal-Free (PGM-Free) Catalyst Integrated Tandem Junction PEC Water Splitting Devices Charles Dismukes, Rutgers University
- Protective Catalyst Systems on III-V and Si-Based Semiconductors for Efficient, Durable Photoelectrochemical Water Splitting Devices Thomas Jaramillo, Stanford University
- Novel Chalcopyrites For Advanced PEC Water Splitting Nicolas Gaillard, University of Hawaii
- Monolithically Integrated Thin-Film/Silicon Tandem Photoelectrodes for High Efficiency and Stable PEC Water Splitting Zetian Mi, University of Michigan
- Perovskite/Perovskite Tandem Photoelectrodes For Low-Cost Unassisted Photoelectrochemical Water Splitting Yanfa Yan, The University of Toledo
- Development of Composite Photocatalyst Materials that are Highly Selective for Solar Hydrogen Production and Their Evaluation in Z-Scheme Reactor Designs Shane Ardo, University of California, Irvine
- Highly Efficient Solar Water Splitting Using 3D/2D Hydrophobic Perovskites with Corrosion Resistant Barriers Aditya D. Mohite, William Marsh Rice University
Biological Production
- Novel Hybrid Microbial Electrochemical System for Efficient Hydrogen Generation from Biomass Hong Liu, Oregon State University
- BioHydrogen (BioH2) Consortium to Advance Fermentative Hydrogen Production Pin-Ching Maness, National Renewable Energy Laboratory
- Scalable and Highly Efficient Microbial Electrochemical Reactor for Hydrogen Generation from Lignocellulosic Biomass and Waste Hong Liu, Oregon State University
Hydrogen Production Analysis
- Analysis of Advanced Hydrogen Production and Delivery Pathways Brian James, Strategic Analysis, Inc.
Other Production
- Industrially Scalable Waste CO2 Reduction to Useful Chemicals and Fuels Todd Deutsch, National Renewable Energy Laboratory
- Extremely Durable Concrete using Methane Decarbonization Nanofiber Co-Products with Hydrogen Alan W. Weimer, University of Colorado, Boulder
Advanced Materials—Storage
- HyMARC: A Consortium for Advancing Hydrogen Storage MaterialsMark Allendorf, Sandia National Laboratories, and Tom Gennett, National Renewable Energy Laboratory
- HyMARC Core Activity: Sorbents, Tom Gennett, National Renewable Energy Laboratory
- HyMARC Core Activity: Metal Hydrides Mark Allendorf, Sandia National Laboratories
- HyMARC: Hydrogen Carriers R&D Activities for Bulk Hydrogen Storage and Transport Tom Autrey, Pacific Northwest National Laboratory
- HyMARC Core Activity: CharacterizationPhilip Parilla, National Renewable Energy Laboratory
- HyMARC Core Activity: Data Hub, Courtney Pailing, National Renewable Energy Laboratory
- HyMARC Core Activity: Computational Modeling Brandon Wood, Lawrence Livermore National Laboratory
- HyMARC: Metal Hydrides for Stationary Storage Applications Tae Wook Heo, Lawrence Livermore National Laboratory
- HyMARC Seedling: Development of Magnesium Boride Etherates as Hydrogen Storage Materials Godwin Severa, University of Hawaii
- HyMARC Seedling: Electrolyte Assisted Hydrogen Storage Reactions Dan Addison, Liox Power
- HyMARC Seedling: ALD (Atomic Layer Deposition) Synthesis of Novel Nanostructured Metal Borohydrides Steven Christensen, National Renewable Energy Laboratory
- HyMARC Seedling: Optimized Hydrogen Adsorbents via Machine Learning and Crystal Engineering Don Siegel, University of Michigan
- Theory-Guided Design and Discovery of Materials for Reversible Methane and Hydrogen Storage Omar Farha, Northwestern University
- Metal-Organic Frameworks Containing Frustrated Lewis Pairs for Hydrogen Storage at Ambient Temperature Shengqian Ma, University of South Florida
- HyMARC Seedling: Optimal Adsorbents for Low-Cost Storage of Natural Gas and Hydrogen: Computational Identification, Experimental Demonstration, and System-Level Projection Don Siegel, University of Michigan
- Methane and Hydrogen Storage with Porous Cage-Based Composite Materials Eric Bloch, University of Deleware
- Uniting Theory and Experiment to Deliver Flexible MOFs for Superior Methane (NG) Storage Brian Space, University of South Florida
- Heteroatom-Modified and Compacted Zeolite-Templated Carbons for Gas Storage Nicholas Stadie, Montana State University
- Developing New NG Super-Absorbent Polymer Mike Chung, Penn State University
- Hydrogen Release from Concentrated Media with Reusable Catalysts Travis Williams, University of Southern California
- A Reversible Liquid Hydrogen Carrier System Based on Ammonium Formate and Captured CO2 Hongfei Lin, Washington State University
- High Capacity Step-Shaped Hydrogen Adsorption in Robust, Pore-Gating Zeolitic Imidazolate FrameworksMichael McGuirk, Colorado School of Mines
- SBIR: General Techniques for Increasing Packing Density of Metal-Organic Frameworks for Enhanced Volumetric Storage of Hydrogen, William Morris, NuMat
Systems Engineering—Storage
- Hydrogen Storage System Modeling: Public Access, Maintenance, and Enhancements Matt Thornton, National Renewable Energy Laboratory
- Emergency Hydrogen Refueler for Individual Consumer Fuel Cell Vehicles Daniel Carr, Skyhaven Systems
Advanced Tanks—Storage
- Precursor Processing Development for Low Cost, High Strength Carbon Fiber for Composite Overwrapped Pressure Vessel Applications Matthew Weisenberger, University of Kentucky
- Developing a New Polyolefin Precursor for Low-Cost, High-Strength Carbon Fiber Mike Chung, Penn State University
- Novel Plasticized Melt Spinning Process of PAN Fibers Based on Task-Specific Ionic Liquids Sheng Dai, Oak Ridge National Laboratory
- SBIR: Highly Efficient Smart Tanks for Hydrogen Storage Ambalavanan Jayaraman, TDA Research, Inc.
Testing and Analysis—Storage
- System Level Analysis of Hydrogen Storage OptionsRajesh Ahluwalia, Argonne National Laboratory
- Hydrogen Storage Cost Analysis, Cassidy Houchins, Strategic Analysis, Inc.