| Selectee Name |
Project Title |
City, State |
Topic Area |
DOE Share |
Total Award Amount |
| Noble Thermodynamic Systems, Inc. |
Ultra Efficient CHP with High Power/Heat Ratio using a Novel Argon Power Cycle |
Berkeley, California |
Topic 3, Subtopic 3.2: High Power to Heat Ratio, High Efficiency Combined Heat and Power (CHP) |
$3,842,312 |
$5,079,180 |
| Aerojet Rocketdyne |
A Digitally Informed Approach to Enhanced Heat Recovery through Additive Manufacturing of "Adaptive Thermoelectric Modules" for Energy Conversion Platforms |
Canoga Park, California |
Topic 1, Subtopic 1.1: Accelerate the Manufacturing Process Design and Development Cycle for Advanced Energy Conversion and Storage Materials |
$3,985,939 |
$5,003,362 |
| Lawrence Livermore National Laboratory |
Predicting durability of manufactured turbine components under high-temperature operation |
Livermore, California |
Topic 1, Subtopic 1.4: Process-Informed Science, Design, and Engineering of Materials and Devices Operating in Harsh Service Conditions |
$499,987 |
$624,984 |
| University of California, Los Angeles |
Innovative design and manufacturing of 2.5D battery with high energy and power density |
Los Angeles, California |
Topic 1, Subtopic 1.2: Innovative Manufacturing Processes for Battery Energy Storage |
$400,000 |
$500,000 |
| Palo Alto Research Center, Inc. |
Filament Extension Atomization for High Solids Loading in Energy Efficient Spray Drying Systems |
Palo Alto, California |
Topic 2, Subtopic 2.1: Advances in Industrial and Process Drying |
$2,999,817 |
$3,749,817 |
| Palo Alto Research Center, Inc. |
Scalable Ceramic ALignment for Electro-active Structures (SCALES) |
Palo Alto, California |
Topic 1, Subtopic 1.1: Accelerate the Manufacturing Process Design and Development Cycle for Advanced Energy Conversion and Storage Materials |
$499,977 |
$624,972 |
| University of California, Santa Barbara |
Accelerating Manufacturing of Powder-Processed Strong, Lightweight, and Thermally Stable Bulk Nanocrystalline Al Alloys via Engineered Interface States |
Santa Barbara, California |
Topic 1, Subtopic 1.3: Materials and Manufacturing Process Development of Nanocrystalline Metal Alloys |
$500,000 |
$625,000 |
| Applied Materials, Inc. |
Advanced Anode Manufacturing through Ultra-Thin Li Deposition |
Santa Clara, California |
Topic 1, Subtopic 1.2: Innovative Manufacturing Processes for Battery Energy Storage |
$12,000,000 |
$24,192,623 |
| Applied Materials, Inc. |
Synergistic Coating and Fe-Ni-Cr-Alloy Development for Harsh Environments |
Santa Clara, California |
Topic 1, Subtopic 1.4: Process-Informed Science, Design, and Engineering of Materials and Devices Operating in Harsh Service Conditions |
$500,000 |
$1,004,075 |
| Sylvatex |
Advanced Manufacturing of Cathode Materials for Lithium-ion Battery |
Sunnyvale, California |
Topic 1, Subtopic 1.2: Innovative Manufacturing Processes for Battery Energy Storage |
$2,038,708 |
$2,551,023 |
| University of Colorado Boulder |
Optimal Co-Design of Integrated Thermal-Electrical Networks and Control Systems for Grid-interactive Efficient District (GED) Energy Systems |
Boulder, Colorado |
Topic 3, Subtopic 3.3: Verification and Validation of CHP and District Energy |
$3,327,878 |
$4,159,922 |
| National Renewable Energy Laboratory |
Oxide Electronic Devices for Extreme Operating Environments |
Golden, Colorado |
Topic 1, Subtopic 1.4: Process-Informed Science, Design, and Engineering of Materials and Devices Operating in Harsh Service Conditions |
$3,200,000 |
$4,000,000 |
| Forge Nano |
Reducing the Cost and Energy of Lithium-ion Battery Manufacturing using High Throughput Atomic Layer Deposition Processes |
Louisville, Colorado |
Topic 1, Subtopic 1.2: Innovative Manufacturing Processes for Battery Energy Storage |
$5,026,584 |
$6,283,334 |
| United Technologies Research Center |
Electric-Field De-Wetting for Enhanced Drying (P.300.0724) |
East Hartford, Connecticut |
Topic 2, Subtopic 2.1: Advances in Industrial and Process Drying |
$499,929 |
$624,912 |
| University of Connecticut |
High Throughput Screening of Ultra-Thin Electrocaloric Materials Enabled by Additive Manufacturing |
Storrs, Connecticut |
Topic 1, Subtopic 1.1: Accelerate the Manufacturing Process Design and Development Cycle for Advanced Energy Conversion and Storage Materials |
$500,000 |
$625,000 |
| The George Washington University |
Urban Combined Heat and Power with Integrated Renewables and Energy Storage |
Washington, District of Columbia |
Topic 3, Subtopic 3.3: Verification and Validation of CHP and District Energy |
$499,967 |
$629,790 |
| University of Florida |
Development of High Energy Density Thermomagnetic Processing Technology for Intensification of Industrial Heat-treatment and Increased Material Performance |
Gainesville, Florida |
Topic 2, Subtopic 2.2: Thermal Process Intensification |
$8,718,107 |
$10,940,572 |
| Georgia Institute of Technology |
Robust Combined Heat and Hybrid Power (CHHP) for High Electrical Efficiency Cogeneration |
Atlanta, Georgia |
Topic 3, Subtopic 3.2: High Power to Heat Ratio, High Efficiency Combined Heat and Power (CHP) |
$500,000 |
$625,000 |
| Idaho National Laboratory |
New Materials and an Efficient Processing Approach for Materials for Harsh Environments - Advanced Fabrication and Joining of High Performance Materials |
Idaho Falls, Idaho |
Topic 1, Subtopic 1.4: Process-Informed Science, Design, and Engineering of Materials and Devices Operating in Harsh Service Conditions |
$3,100,000 |
$3,875,000 |
| University of Notre Dame |
Optimizing Additive Manufacturing of Thermoelectric Materials using Bayesian Optimization-Enhanced Transfer Learning |
Notre Dame, Indiana |
Topic 1, Subtopic 1.1: Accelerate the Manufacturing Process Design and Development Cycle for Advanced Energy Conversion and Storage Materials |
$2,000,000 |
$2,553,080 |
| Ames Laboratory |
Manufacturing of Al-Ce/metal-matrix-composites (MMC) Alloys for Harsh Environments |
Ames, Iowa |
Topic 1, Subtopic 1.4: Process-Informed Science, Design, and Engineering of Materials and Devices Operating in Harsh Service Conditions |
$3,940,000 |
$4,940,000 |
| Iowa State University |
Nanosecond Laser Drying in Wafer Foundries for Significant Energy Efficiency Improvement |
Ames, Iowa |
Topic 2, Subtopic 2.1: Advances in Industrial and Process Drying |
$500,000 |
$665,736 |
| Iowa State University |
Novel ceramic capacitors with ultrahigh energy density and efficiency |
Ames, Iowa |
Topic 1, Subtopic 1.1: Accelerate the Manufacturing Process Design and Development Cycle for Advanced Energy Conversion and Storage Materials |
$1,995,900 |
$2,494,875 |
| University of Kentucky |
AI-Enabled Discovery and Physics-Based Optimization of Energy-Efficient Processing Strategies for Advanced Turbine Alloys |
Lexington, Kentucky |
Topic 1, Subtopic 1.4: Process-Informed Science, Design, and Engineering of Materials and Devices Operating in Harsh Service Conditions |
$497,721 |
$626,231 |
| Louisiana State University |
Machine learning for optimizing the manufacture and operation of intermediate temperature fuel cells |
Baton Rouge, Louisiana |
Topic 1, Subtopic 1.1: Accelerate the Manufacturing Process Design and Development Cycle for Advanced Energy Conversion and Storage Materials |
$498,193 |
$624,206 |
| Pixelligent Technologies, LLC |
Protective Coatings that Manufacture Themselves for High Performance Applications |
Baltimore, Maryland |
Topic 1, Subtopic 1.4: Process-Informed Science, Design, and Engineering of Materials and Devices Operating in Harsh Service Conditions |
$1,461,843 |
$1,827,304 |
| Massachusetts Institute of Technology |
Machine-learned processing pathways for solid state electrolytes |
Cambridge, Massachusetts |
Topic 1, Subtopic 1.1: Accelerate the Manufacturing Process Design and Development Cycle for Advanced Energy Conversion and Storage Materials |
$3,588,176 |
$4,485,220 |
| Veloxint Corporation |
Affordable, stronger, lighter, next-generation nanocrystalline metal alloy technology with scalable manufacturing |
Framingham, Massachusetts |
Topic 1, Subtopic 1.3: Materials and Manufacturing Process Development of Nanocrystalline Metal Alloys |
$3,999,129 |
$5,000,184 |
| University of Massachusetts Lowell |
Manufacturing of Fabric Electrodes using a High-Throughput Screening Platform for Redox Flow Batteries |
Lowell, Massachusetts |
Topic 1, Subtopic 1.1: Accelerate the Manufacturing Process Design and Development Cycle for Advanced Energy Conversion and Storage Materials |
$500,000 |
$649,532 |
| Western New England University |
Machine Learning Accelerated Process Development for Scalable Manufacturing of Silica-based Glass Encapsulated Phase Change Materials Using Flow Mold Casting |
Springfield, Massachusetts |
Topic 1, Subtopic 1.1: Accelerate the Manufacturing Process Design and Development Cycle for Advanced Energy Conversion and Storage Materials |
$498,159 |
$709,981 |
| International District Energy Association |
Verification and Validation of Performance with Dissemination of Best Practices in District Energy and CHP for Enhanced Resiliency, Energy Efficiency and Cybersecurity |
Westborough, Massachusetts |
Topic 3, Subtopic 3.3: Verification and Validation of CHP and District Energy |
$1,097,464 |
$1,372,464 |
| Worcester Polytechnic Institute |
Novel Energy-Efficient Drying Technologies for Food, Pulp and Paper, and other Energy Intensive Manufacturing Industries |
Worcester, Massachusetts |
Topic 2, Subtopic 2.1: Advances in Industrial and Process Drying |
$3,459,860 |
$4,519,028 |
| Navitas Advance Solutions Group, LLC |
High Throughput Solvent-free Manufacturing of Battery Electrodes |
Ann Arbor, Michigan |
Topic 1, Subtopic 1.2: Innovative Manufacturing Processes for Battery Energy Storage |
$4,400,000 |
$5,500,000 |
| Michigan Technological University |
Rapid Bayesian High Entropy Alloy Designs Fabricated via Wire Arc Additive Manufacturing |
Houghton, Michigan |
Topic 1, Subtopic 1.4: Process-Informed Science, Design, and Engineering of Materials and Devices Operating in Harsh Service Conditions |
$500,000 |
$625,000 |
| Western Michigan University |
Enabling Advanced Electrode Architecture through Printing Technique |
Kalamazoo, Michigan |
Topic 1, Subtopic 1.2: Innovative Manufacturing Processes for Battery Energy Storage |
$9,596,967 |
$11,996,211 |
| 3M Company |
Degradation of Poly- and Perfluoroalkyl Substances (PFASs) in Water via High Power, Energy-Efficient Electron Beam Accelerator |
St. Paul, Minnesota |
Topic 2, Subtopic 2.2: Thermal Process Intensification |
$723,613 |
$904,517 |
| Missouri University of Science and Technology |
Novel High Resolution High Temperature In-Line Sensors for Steel Manufacturing |
Rolla, Missouri |
Topic 1, Subtopic 1.4: Process-Informed Science, Design, and Engineering of Materials and Devices Operating in Harsh Service Conditions |
$1,607,992 |
$2,271,427 |
| University of Nevada, Reno |
The Grain Boundary Relaxation (GBR) Approach for Manufacturing of High Strength Nanocrystalline Lightweight Metals |
Reno, Nevada |
Topic 1, Subtopic 1.3: Materials and Manufacturing Process Development of Nanocrystalline Metal Alloys |
$500,000 |
$625,000 |
| Molecule Works Inc. |
A Water Vapor Membrane Separation System for Process Drying and Latent Energy Recovery |
Pittsford, New York |
Topic 2, Subtopic 2.1: Advances in Industrial and Process Drying |
$3,818,114 |
$6,875,974 |
| Albemarle Corporation |
Thin-film lithium metal manufacture by room temperature electrodeposition |
Charlotte, North Carolina |
Topic 1, Subtopic 1.2: Innovative Manufacturing Processes for Battery Energy Storage |
$4,310,960 |
$5,391,760 |
| Paragon Robotics LLC |
Advanced District Energy Controls for Improved Efficiency and Resilience |
Bedford Heights, Ohio |
Topic 3, Subtopic 3.3: Verification and Validation of CHP and District Energy |
$1,004,090 |
$1,277,473 |
| Eaton Corporation |
Megawatt Class, High-Voltage SiC Power Electronics Converters for Advanced Manufacturing with Grid Support Services |
Cleveland, Ohio |
Topic 3, Subtopic 3.1: Medium-Voltage Power Conditioning Systems to Enable Grid-Dispatchable and Resilient Manufacturing Facilities |
$4,000,000 |
$5,071,847 |
| Edison Welding Institute, Inc. (EWI) |
Machine Learning Enhanced Development of Functionally Graded Materials Enabled by Directed Energy Deposition |
Columbus, Ohio |
Topic 1, Subtopic 1.4: Process-Informed Science, Design, and Engineering of Materials and Devices Operating in Harsh Service Conditions |
$3,940,240 |
$4,925,300 |
| Wright State University |
Accelerating Additive Manufacturing Process Design for Energy Conversion Materials using In-situ Sensing and Machine Learning |
Dayton, Ohio |
Topic 1, Subtopic 1.1: Accelerate the Manufacturing Process Design and Development Cycle for Advanced Energy Conversion and Storage Materials |
$500,000 |
$638,456 |
| Arkema Inc. |
Roll-To Roll Manufacturing of Low Cost and Safer Lithium Ion Batteries |
King of Prussia, Pennsylvania |
Topic 1, Subtopic 1.2: Innovative Manufacturing Processes for Battery Energy Storage |
$5,037,888 |
$6,331,427 |
| The ExOne Company |
Binder Jet Additive Manufacturing of Novel Design, High Temperature, Ceramic Heat Exchangers |
North Huntingdon, Pennsylvania |
Topic 1, Subtopic 1.4: Process-Informed Science, Design, and Engineering of Materials and Devices Operating in Harsh Service Conditions |
$3,999,993 |
$4,999,992 |
| Carpenter Technology Corporation |
Novel Hot Gas Path Components for Gas Turbine Engines Enabled by Materials and AM Process Development |
Reading, Pennsylvania |
Topic 1, Subtopic 1.4: Process-Informed Science, Design, and Engineering of Materials and Devices Operating in Harsh Service Conditions |
$3,200,000 |
$4,000,000 |
| University of Tennessee, Knoxville |
SiC Based Modular Transformer-less MW-Scale Power Conditioning System and Control for Flexible Manufacturing Plants |
Knoxville, Tennessee |
Topic 3, Subtopic 3.1: Medium-Voltage Power Conditioning Systems to Enable Grid-Dispatchable and Resilient Manufacturing Facilities |
$3,581,545 |
$4,477,107 |
| Houston Advanced Research Center |
Advances on CHP District Energy and Microgrids Deployment: Simplified Tool for Rapidly Deploying Feasibility Analytics for the Non-Technical User |
The Woodlands, Texas |
Topic 3, Subtopic 3.3: Verification and Validation of CHP and District Energy |
$1,463,534 |
$1,929,082 |
| Virginia Polytechnic Institute and State University |
High-Manufacturability 13.8 kV Grid-Interface Power Conditioning Converter with MVAC and MVDC Ports for Flexible Manufacturing Plants |
Blacksburg, Virginia |
Topic 3, Subtopic 3.1: Medium-Voltage Power Conditioning Systems to Enable Grid-Dispatchable and Resilient Manufacturing Facilities |
$3,999,445 |
$4,999,408 |
| University of Virginia |
Single-step additive manufacturing of thermoelectric devices guided by machine learning and high throughput characterization |
Charlottesville, Virginia |
Topic 1, Subtopic 1.1: Accelerate the Manufacturing Process Design and Development Cycle for Advanced Energy Conversion and Storage Materials |
$500,000 |
$625,000 |
| Virginia Commonwealth University |
Advanced Slug-flow Manufacturing of Uniform and Tunable Battery Cathode Particles |
Richmond, Virginia |
Topic 1, Subtopic 1.2: Innovative Manufacturing Processes for Battery Energy Storage |
$2,000,000 |
$2,500,000 |
| Forest Concepts, LLC |
Preheating of Cold, High Moisture Particulate Biomaterials to Reduce Drying Time and Energy |
Auburn, Washington |
Topic 2, Subtopic 2.1: Advances in Industrial and Process Drying |
$400,000 |
$500,000 |
| University of Washington |
Acoustophoretic Additive Manufacturing for Scalable 3D Battery Electrodes |
Seattle, Washington |
Topic 1, Subtopic 1.2: Innovative Manufacturing Processes for Battery Energy Storage |
$494,023 |
$617,529 |
| University of Wisconsin - Madison |
Additive Manufactured Super-Critical CO2 Heat to Power Solution |
Madison, Wisconsin |
Topic 3, Subtopic 3.2: High Power to Heat Ratio, High Efficiency Combined Heat and Power (CHP) |
$3,080,272 |
$3,850,481 |
|
|
Totals |
|
$139,334,326 |
$187,119,398 |
