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Background, Interest,
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| | Power to Hydrogen | Chris Holt | COO |
Small Business
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Hydrogen Production
| Hydrogen Electrolysis | Our hybrid liquid alkaline/AEM (anion exchange membrane) technology reduces the electrolysis stack cost by ~65%, eliminating the expensive and supply chain-constrained metals needed like iridium, titanium, platinum, and gold while integrating directly with variable, renewable energy. This technology can reduce the total cost of hydrogen to enable clean transportation, store energy efficiently, and decarbonize industrial processes. In addition to low-cost materials, the technology can produce hydrogen at 250 bar, solving the cost challenges created by compressing, transporting, and shipping hydrogen.
Alkaline and solid oxide electrolyzers struggle to adapt to variable renewable energy sources, increasing CO2 emissions by using grid energy. PEM electrolyzers solve this problem but must use expensive and supply chain-constrained materials like titanium, iridium, platinum, and gold, which increase system costs and cause scalability challenges. AEM electrolyzers solve both challenges but have struggled to overcome durability challenges on the path to commercialization.
P2H2’s patented, AEM-based cell design solves the durability challenges associated with AEM electrolyzers by putting the membrane under less stress. This leads to electrolyzers that can load following renewable energy sources and are inexpensive with low-cost materials. The cell design also eliminates the safety challenges during high-pressure electrolysis due to hydrogen and oxygen mixing.
P2H2 has significant market traction, demonstrated by a signed commercial relationship with Shell and a pilot with Enel Green Power, the largest developer of renewable energy projects outside of China. These two customers represent our key customer segments, including industrial users of high-pressure hydrogen + oxygen and developers of large renewable energy projects. These markets amount to over $100B by 2025. P2H2 will manufacture and sell the equipment or install it on-site and sell the services it provides in a hydrogen-as-a-service model.
The P2H2 team has 17 members, including 5 PhDs with successful experience commercializing hydrogen products. The team is led by CEO Dr. Paul Matter and COO Chris Holt. Matter has 18 years of hydrogen experience and has previously led the development of fuel cell technology in use by major automotive OEMs. Holt is an entrepreneur and materials engineer with 20+ years of developing advanced products, including a successful hydrogen sensor product line. |
| OH |
| | H2scan | Elizabeth Julian | Controller |
Small Business
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Hydrogen Pilot Projects and Demonstrations
| Hydrogen Sensing Technologies | Derived from the most abundant element in the universe, hydrogen fuel is light, storable, energy-dense, and produces no direct emissions of pollutants or greenhouse gases. One of the most important challenges today is the decarbonization of the global economy and, by 2030, it is expected that the hydrogen economy could be worth $500 billion. Hydrogen can help lead us to a clean, secure and affordable energy future, so it’s pivotal that the world realizes its potential as soon as possible.
H2scan’s sensing technology is critical to the growth of a safe hydrogen economy. Its Gen 5 technology provides hydrogen gas safety sensing to reduce the explosion risk of distribution transformers. Boasting high accuracy, small size, and low cost, this solution helps utilities monitor and protect their operations. |
| CA |
| | Denso International America , Inc. | Tomi Saveski | Engineer |
Large Business
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Fuel Cells
| Electrolysis | DENSO has expertise in manufacturing fuel cell components and components for the the systems (electronic, thermal, etc...) that enable their use. We are also developing a SOEC that we are currently demonstrating. |
| MI |
| | JTEKT | Lance Ferguson | |
Large Business
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Manufacturing
| Topic 2 Electrolyzer Component and Supply Chain Development | JTEKT is a top 20 automotive supplier and for over 50 years has manufactured precision, sheet metal components and assemblies in US plants. In our Design & Manufacturing Technical Center in South Carolina, we have a high speed servo press, bearing quality metrology and metallurgy labs, and a machine shop and are now exploring bipolar plate manufacturing. We have the ability to stamp smaller scale bipolar plates on the order of 80 cm2 active area currently. We also have access to laser welding, coating, and sealing capabilities with an external partner. We are interested in collaboration in design and cost optimization, design for manufacturing, prototyping, and manufacturing process development for bipolar plate production. |
| SC |
| | JTEKT | Lance Ferguson | |
Large Business
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Manufacturing
| Topic 5 Fuel Cell Supply Chain Development | JTEKT is a top 20 automotive supplier and for over 50 years has manufactured precision, sheet metal components and assemblies in US plants. In our Design & Manufacturing Technical Center in South Carolina, we have a high speed servo press, bearing quality metrology and metallurgy labs, and a machine shop and are now exploring bipolar plate manufacturing. We have the ability to stamp smaller scale bipolar plates on the order of 80 cm2 active area currently. We also have access to laser welding, coating, and sealing capabilities with an external partner. We are interested in collaboration in design and cost optimization, design for manufacturing, prototyping, and manufacturing process development for bipolar plate production. |
| SC |
| | GenHydro INC | William Monacci | |
Small Business
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Hydrogen Production
| Green Hydrogen/electrical production | GenHydro is a minority-owned, early-stage renewable energy company developing a novel process for producing clean hydrogen from renewable materials at the groundbreaking price of less than $3/kg, establishing a new benchmark compared to current green hydrogen production methods. Our system utilizes scrap aluminum in a self-sustaining, reactant-based chemical process, resulting in the production of hydrogen, electricity, and green alumina to power a lower carbon energy future. We have begun establishing partnerships with large companies across several industries - including Stanley-Black & Decker and Ford Motor Company - to aid in reducing their carbon footprint. We would welcome additional corporate partners. |
| PA |
| | Quantron US, Inc. | Henrique Martins | |
Small Business
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Systems Analysis
| Topic 4: Fuel Cell Membrane Electrode Assembly and Stack Manufacturing and Automation | The proposed technology for this project is the creation of a Data-Driven Analysis tool to optimize MEA and Stacking for PEM's used in Heavy Duty Vehicles applications using Quantron's Data-Driven Controls. The project aims to address the current shortcomings and limitations in the field of fuel cell technology by using data-driven approaches to optimize energy management and component sizing in fuelc ell electric vehicles (FCEVs). The lack of data to make informed decisions for optimizing FCEVs, the complexity of modeling powertrain systems, and limitations in forecasting driving cycles are some of the challenges that this project aims to overcome. The proposed project will develop a robust data-driven optimization tool that will help to accelerate the selection of the optimal MEA and stacking settings, contributing to the improvement of the manufacturing capacity of fuel cell components used in Heavy Duty Truck PEMs that are more efficient and more durable. The potential impact of the proposed project is expected to advance the state of the art in fuel cell technology and increase production capability and capacity in line with DOE targets.
We are looking for suppliers of PEM components, researchers and other organizations, interested in advancing the state of the art in fuel cell technology and manufacturing. Our experiences working with several types of different Fuel Cell solutions and our capability to convert or manufacture FCEV Trucks place us in advantageous position to promote equity in data availability and testing resources. Do you want to test your new FCEV technology? Then please reach out to us!
Quantron US Inc, a subsidiary of the Germany based Quantron AG, will bring to the US market range-leading hydrogen-powered trucks and an industry-first 360° solution platform that combines vehicle, service & maintenance, insurance, leasing, financing, infrastructure, green power, and hydrogen with all aspects of the mobility value chain, resulting in comprehensive zero-emission per-mile transportation solutions. |
| MI |
| | Quantron US, Inc. | Henrique Martins | |
Small Business
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Hydrogen Pilot Projects and Demonstrations
| Topic 4: Fuel Cell Membrane Electrode Assembly and Stack Manufacturing and Automation | The proposed technology for this project is the creation of a Data-Driven Analysis tool to optimize MEA and Stacking for PEM's used in Heavy Duty Vehicles applications using Quantron's Data-Driven Controls. The project aims to address the current shortcomings and limitations in the field of fuel cell technology by using data-driven approaches to optimize energy management and component sizing in fuelc ell electric vehicles (FCEVs). The lack of data to make informed decisions for optimizing FCEVs, the complexity of modeling powertrain systems, and limitations in forecasting driving cycles are some of the challenges that this project aims to overcome. The proposed project will develop a robust data-driven optimization tool that will help to accelerate the selection of the optimal MEA and stacking settings, contributing to the improvement of the manufacturing capacity of fuel cell components used in Heavy Duty Truck PEMs that are more efficient and more durable. The potential impact of the proposed project is expected to advance the state of the art in fuel cell technology and increase production capability and capacity in line with DOE targets.
We are looking for suppliers of PEM components, researchers and other organizations, interested in advancing the state of the art in fuel cell technology and manufacturing. Our experiences working with several types of different Fuel Cell solutions and our capability to convert or manufacture FCEV Trucks place us in advantageous position to promote equity in data availability and testing resources. Do you want to test your new FCEV technology? Then please reach out to us!
Quantron US Inc, a subsidiary of the Germany based Quantron AG, will bring to the US market range-leading hydrogen-powered trucks and an industry-first 360° solution platform that combines vehicle, service & maintenance, insurance, leasing, financing, infrastructure, green power, and hydrogen with all aspects of the mobility value chain, resulting in comprehensive zero-emission per-mile transportation solutions. |
| MI |
| | University of Oklahoma | Pejman Kazempoor | |
Academic
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Fuel Cells
| Topic 3: Advanced Electrolyzer Technology and Component Development | Our team has extensive experience in developing fundamental up to system-level computational models for fuel cell, including advanced models for membranes, catalysts, electrodes, and bipolar plates. These models are based on first-principles calculations, as well as data-driven approaches such as machine learning and statistical analysis. |
| OK |
| | Molecule Works Incorporated | Wei Liu | |
Small Business
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Manufacturing
| Subtopic 2g – LA Separators: | Molecule Works Inc. is a small, US technology company engaged in development and commercialization of molecular-level designed products or processes for energy and environmental applications. We have developed a 50micro-meter thin, porous ceramic membrane separator and/or anodic electrode assembly that solves the problems with current membrane separators for alkaline water electrolysis applications. We are planning to scale up the membrane preparation to pilot production and become a US-based supplier of new membrane separator and/or MEA products. We are looking for three types of partners: 1) Alkaline water electrolyzer developers who want to evaluate new types of the membrane separator, 2) researchers who can conduct systematic study of the new membrane properties pertinent to alkaline water electrolysis applications, 3) the experienced manufacturers who can provide complementary manufacturing technologies, such as automation and quality inspection. |
| WA |
| | Rochester Institute of Technology | Patricia Taboada-Serrano | |
Academic
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Hydrogen Production
| | The investigator is a chemical/environmental engineer working in electrochemistry, surface/interfacial electrochemistry, electrochemical anodization, electrocatalysis, and electrosorption. Her research group combines modeling at different scales (molecular and microscopic) with experimental work in order to guide the synthesis of electrode materials, explore mechanisms of surface charge development and Faradaic processes.
The investigator is currently interested in new approaches to synthesize scalable water electrolysis electrodes from earth-abundant metals for PEM and LA electrolyzers. The approach she proposes is the combination of additive manufacturing with electrochemical functionalization. The investigator and her collaborators have published work on the proof principle of the suitability a hierarchically-structured Ti/TiO2 electrode for hydrogen evolution during water electrolysis in acidic media. She is interested in expanding the approach of electrode fabrication to alkaline media (LA electrolyzers), and other environmentally relevant processes like CO2 reduction.
The investigator is also interested in electrochemical separations, and interfacial phenomena in electrochemical systems.
Finally, the investigator is interested in the effect of confinement on chemical processes, including electrochemistry and phase transition within highly porous materials. As such, the researcher has also worked on crystalline phases within porous media. |
| NY |
| | Skyhaven Systems, LLC | Michael C. Kimble | |
Small Business
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Hydrogen Production
| Water electrolyzers and MEA QC on-line sensors | Skyhaven Systems is a small business with locations in Steamboat Springs, CO and Westford, MA that focuses on electrochemical technologies. The firm conducts numerous SBIR and BAA government funded programs with a central focus on electrochemical reactors, separators, electrodeposition, H2 generators, PEM-based fuel cells and water electrolyzers, sensors, and materials development.
The firm has a patented quality control inspection system for non-destructively assessing the chemical activity of membrane and electrode assemblies. This has applicability for on-line QC inspection of electrolyzer and fuel cell MEAs during reel-to-reel manufacturing. The firm desires to engage and partner with MEA manufacturers who desire an on-line rapid QC sensor for assessing the quality of catalyzed membranes.
The firm is involved with novel electrochemical reactor designs and materials development. A new water electrolyzer design is being developed that offers a substantially lower capital cost than traditional PEM-based electrolyzers while helping to maximize operational efficiency. Partners are being sought that can conduct mathematical modeling of the electrolyzer to help guide design development, and that can help assess scaled water electrolyzers substantially larger than 25 cm2 active areas. |
| CO |
| | Austin Power Engineering LLC | Yong Yang | |
Small Business
|
Systems Analysis
| Topic 5: Fuel Cell Supply Chain Development | Austin Power Engineering is an independent technology consulting company that provides PEM fuel cell manufacturing cost and system analysis. Our main strength focuses on technology assessment, bottom-up manufacturing cost modeling, and manufacturing process design.
Austin Power Engineering has developed a proprietary, bottom-up, activities-based manufacturing cost model using Design for Manufacturing & Assembly (DFMA) principles. We have used the bottom-up costing approach successfully for estimating the cost of existing and new technologies. This approach has been used in projecting the cost of electrolyzers, PEM fuel cells, SOFCs, and hydrogen storage technologies. We have validated the cost modeling methodology with commercial clients in real-world situations involving the planning and implementation of new manufacturing lines. |
| MA |
| | Austin Power Engineering LLC | Yong Yang | |
Small Business
|
Systems Analysis
| Topic 4: Fuel Cell MEA and Stack Manufacturing and Automation | Austin Power Engineering is an independent technology consulting company that provides PEM fuel cell manufacturing cost and system analysis. Our main strength focuses on technology assessment, bottom-up manufacturing cost modeling, and manufacturing process design.
Austin Power Engineering has developed a proprietary, bottom-up, activities-based manufacturing cost model using Design for Manufacturing & Assembly (DFMA) principles. We have used the bottom-up costing approach successfully for estimating the cost of existing and new technologies. This approach has been used in projecting the cost of electrolyzers, PEM fuel cells, SOFCs, and hydrogen storage technologies. We have validated the cost modeling methodology with commercial clients in real-world situations involving the planning and implementation of new manufacturing lines. |
| MA |
| | Austin Power Engineering LLC | Yong Yang | |
Small Business
|
Systems Analysis
| Topic 3: Advanced Electrolyzer Technology and Component Development | Austin Power Engineering is an independent technology consulting company that provides hydrogen electrolysis manufacturing cost and system analysis. Our main strength focuses on technology assessment, bottom-up manufacturing cost modeling, and manufacturing process design.
Austin Power Engineering has been evaluating commercial alkaline, PEM, and SOEC products in the market as well as new electrolysis technologies.
Austin Power Engineering also developed 100 MW, 500 MW, 1 GW, and 5 GW H2 production plant concept design, electrolysis technology assessment, bottom-up manufacturing cost analysis. |
| MA |
| | Austin Power Engineering LLC | Yong Yang | |
Small Business
|
Systems Analysis
| Topic 2: Electrolyzer Component and Supply Chain Development | Austin Power Engineering is an independent technology consulting company that provides hydrogen electrolysis manufacturing cost and system analysis. Our main strength focuses on technology assessment, bottom-up manufacturing cost modeling, and manufacturing process design.
Austin Power Engineering has been evaluating commercial alkaline, PEM, and SOEC products in the market as well as new electrolysis technologies.
Austin Power Engineering also developed 100 MW, 500 MW, 1 GW, and 5 GW H2 production plant concept design, electrolysis technology assessment, bottom-up manufacturing cost analysis. |
| MA |
| | Austin Power Engineering LLC | Yong Yang | |
Small Business
|
Systems Analysis
| Low-Cost, High-Throughput Electrolyzer Manufacturing | Austin Power Engineering is an independent technology consulting company that provides hydrogen electrolysis manufacturing cost and system analysis. Our main strength focuses on technology assessment, bottom-up manufacturing cost modeling, and manufacturing process design.
Austin Power Engineering has been evaluating commercial alkaline, PEM, and SOEC products in the market as well as new electrolysis technologies.
Austin Power Engineering also developed 100 MW, 500 MW, 1 GW, and 5 GW H2 production plant concept design, electrolysis technology assessment, bottom-up manufacturing cost analysis. |
| MA |
| | Hydrogen Technologies, LLC | Dean Moretton | |
Small Business
|
Hydrogen Pilot Projects and Demonstrations
| Hydrogen fueled Steam boiler | Hydrogen Technologies LLC (HT) offers a cutting-edge solution for decarbonizing industrial and commercial operations that require steam, with HT's 100% hydrogen fueled commercial and industrial steam boilers. This innovative boiler design emits zero greenhouse gas emissions, as it operates solely on hydrogen and oxygen, without any nitrogen introduced within the process. It can provide steam from 1,500 kg per hour up to 8,000 kg of steam per hour, making it a versatile solution for a wide range of industrial needs.
Moreover, Hydrogen Technologies is scaling up their existing system from 8,000 kg of steam per hour to 50,000 kg of steam per hour, and HTwill be collaborating with National Labs to achieve this expansion. HT is committed to innovation and growth, while also ensuring HT receives expert assistance from US leading R&D professionals.
Hydrogen Technologies' boilers are a reliable and efficient solution for meeting greenhouse gas emission and ESG (Environmental, Social, and Governance) goals. It can be utilized in various industrial applications, such as district heat plants, food processing, chemical refining, pharmaceuticals, pulp and paper mills, and other industrial manufacturing processes. Overall, Hydrogen Technologies offers a clean, sustainable, and practical solution for reducing emissions and promoting sustainability and green in industrial operations. |
| OK |
| | NC Clean Energy Technology Center | Rebekah de la Mora | |
Academic
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Hydrogen Pilot Projects and Demonstrations
| | The NC Clean Energy Technology Center, an extension of North Carolina State University, was founded in December 1987 as the North Carolina Solar Center. For the last 35 years, the Center has worked closely with partners in government, industry, academia, and the non-profit community while evolving to include a greater geographic scope and array of clean energy technologies. As a result of this evolution, the Center has grown into a state agency respected for its assistance to the burgeoning “clean tech” sector in North Carolina, as well as one of the premier clean energy centers of knowledge in the United States. The Center provides services to the businesses and citizens of North Carolina and beyond relating to the development and adoption of clean energy technologies. Through its programs and activities, we envision and seek to promote the development and use of clean energy in ways that stimulate a sustainable economy while reducing dependence on foreign sources of energy, and mitigating the environmental impacts of fossil fuel use.
We provide technical assistance, policy analysis, and workforce development training related to clean energy. In addition, we host the DOE's CHP Technical Assistance Partnership in the Southeast, and we have access to NCSU's extensive research resources. Our suite of services provides a holistic approach to clean energy adoption, integrating technological advancement with real-world applications, regulations, problems, solutions, and opportunities. We track hydrogen policy developments at the federal and state level, and understanding the regulatory landscape is key to developing effective hydrogen solutions; this interdisciplinary approach ensures ideas and technologies are more likely to reach deployment. |
| NC |
| | TreadStone Technologies, Inc. | Conghua Wang | |
Small Business
|
Hydrogen Production
| | TreadStone Technologies Inc. is a small business located in Princeton NJ. TreadStone's expertise is in metallic plate coatings for fuel cells, electrolyzers and flow batteries. We have over 60 patents and applications world wide. We offer three coating families including our industry branded DOTS coating, applied post-forming; TiOx, a precious-metal-free coating applied pre-forming (reel to reel); and our recently released DuraC carbon based coating applied pre-forming (reel to reel). TreadStone is able adapt our coatings for different use applications based on your system design and requirements. Our coatings can be used on various substrate metals including stainless steel, titanium, etc. The coatings are commercially available and we are expanding our coating service capabilities to address up to 1 GW by the end of 2023. Our company is recognized as having high performance, low cost coatings in our markets globally.
We are happy to support your project as a team subcontractor providing our market accepted coatings. |
| NJ |
| | University of Missouri | Prof. Yangchuan Xing | |
Academic
|
Fuel Cells
| Topic 3. Advanced Electrolyzer Technology and Component Development | We study electrocatalysts, in particular corrosion resistant catalyst support. We have developed a unique coating process, condensed layer deposition (CLD), to make metal oxide nanocoatings on a substrate. This is a low-cost liquid process to making nanocoatings. For example, we can coat carbon black or carbon nanotubes, or other materials, with acid resistant metal oxide nanocoatings (such as TiO2, Nb2O5, etc.), anywhere from 1 to 100 nm. We can incorporate iridium (Ir), or other elements, in/on the metal oxide nanocoatings for high utilization with reduced PGM loading. This is expected to lead to a highly efficient and active OER catalyst. We would like to join a team to contribute to the electrocatalyst aspect.
References: https://doi.org/10.1038/s43246-020-0010-9; https://doi:10.1557/jmr.2012.353; https://doi.org/10.1016/j.electacta.2013.04.027 |
| MO |
| | ET Energies | Derek B Lubie | |
Small Business
|
Hydrogen Production
| Topic 3 Advanced Electrolyzer Technology and Component Development | Background:
ET Energies has been established by Electrolytic Technologies Systems LLC (ETS) as part of its efforts to promote sustainable energy. ETS has over two decades of extensive experience installing and implementing skid mounted modular fully engineered and factory-tested on-site chlorine and sodium hypochlorite generation plants globally. ET Energies is well positioned to be a leading provider of electrolysis-based solutions for the production of green hydrogen and will leverage ETS's expertise and skills to apply them in R&D for designing on-site hydrogen & oxygen generation systems and PEM stacks.
Interest:
ET Energies is actively seeking strategic partnerships with companies specializing in advanced CCM development, coating and sealing technologies as well as high-precision manufacturing of bipolar plates. ET Energies has expertise in developing PEM stacks & systems and is looking to improve its current electrolyzer stack through alliances with component suppliers. The intention is to develop a reliable cost-effective PEM stack that meets or exceeds the performance characteristics required by DOE by combining our knowledge and expertise with that of other developers. A strong focus is placed on window area and flow-field optimization, advanced high-pressure sealing, waste material reduction and safety.
Capabilities:
We are actively working on developing a scalable high-pressure discharge PEM electrolyzer stack and have the ability to design & develop optimized flow-fields and cooling loops to better distribute current and temperature distribution within the stack to extend its life expectancy and improve efficiency. Current projects include developing a modular, cabinet-sized on-site hydrogen/oxygen generator system to bring to the market. |
| FL |
| | Pajarito Powder LLC | Michele Ostraat | |
Small Business
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Manufacturing
| Topic 6: Recycling and Recovery Consortium | Pajarito Powder is a US-based innovator and manufacturer of electrocatalyst materials for fuel cells and electrolyzers based in Albuquerque, New Mexico. Pajarito Powder manufactures a range of products across different chemistries for hydrogen applications, including a proprietary Engineered Catalyst Support (ECS) for fuel cell anode and electrolyzer cathode applications, along with complete catalyst solutions featuring platinum and platinum alloys deposited on ECS, as well as chemistry-specific catalysts for water electrolysis. PEM variants include iridium and supported iridium oxide catalysts and AEM catalysts include developmental materials, such as lead ruthenate, lanthanum strontium cobalt, and nickel ferrite.
Pajarito Powder is an organization located in a Disadvantaged Community (DAC). |
| NM |
| | Pajarito Powder LLC | Michele Ostraat | |
Small Business
|
Manufacturing
| Topic 5: Fuel Cell Supply Chain Development | Pajarito Powder is a US-based innovator and manufacturer of electrocatalyst materials for fuel cells and electrolyzers based in Albuquerque, New Mexico. Pajarito Powder manufactures a range of products across different chemistries for hydrogen applications, including a proprietary Engineered Catalyst Support (ECS) for fuel cell anode and electrolyzer cathode applications, along with complete catalyst solutions featuring platinum and platinum alloys deposited on ECS, as well as chemistry-specific catalysts for water electrolysis. PEM variants include iridium and supported iridium oxide catalysts and AEM catalysts include developmental materials, such as lead ruthenate, lanthanum strontium cobalt, and nickel ferrite.
Pajarito Powder is an organization located in a Disadvantaged Community (DAC). |
| NM |
| | Pajarito Powder LLC | Michele Ostraat | |
Small Business
|
Manufacturing
| Topic 4: Fuel Cell Membrane Electrode Assembly & Stack Manufacturing & Automation | Pajarito Powder is a US-based innovator and manufacturer of electrocatalyst materials for fuel cells and electrolyzers based in Albuquerque, New Mexico. Pajarito Powder manufactures a range of products across different chemistries for hydrogen applications, including a proprietary Engineered Catalyst Support (ECS) for fuel cell anode and electrolyzer cathode applications, along with complete catalyst solutions featuring platinum and platinum alloys deposited on ECS, as well as chemistry-specific catalysts for water electrolysis. PEM variants include iridium and supported iridium oxide catalysts and AEM catalysts include developmental materials, such as lead ruthenate, lanthanum strontium cobalt, and nickel ferrite.
Pajarito Powder is an organization located in a Disadvantaged Community (DAC). |
| NM |
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