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Faraday Technology, Inc.
UEI: ZL5LDDLNHGN4
# of Employees: 15
HUBZone Owned: No
Socially and Economically Disadvantaged: No
Woman Owned: No
Award Charts
Award Listing
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Electrodeposited Overlays for Improved Durability of Nuclear Reactors
Amount: $1,150,000.00C47-20a-271162Next generation molten salt reactor systems require the development of scalable processes to apply bimetallic structures of corrosion-resistant materials onto boiler and pressure vessels ...
SBIRPhase II2023Department of Energy -
Electrochemical Recycling of Carbon Fiber Composite Wind Turbine Components
Amount: $205,000.00Deployment of wind turbines with longer blades and high hub heights is a critical path towards improving the economics of wind energy. These large wind turbines use carbon fiber composites in order to ...
STTRPhase I2023Department of Energy -
Electrochemically Enabled Mineralization of Produced Water via Anthropogenic CO2
Amount: $255,000.00Emissions of carbon dioxide from burning of fossil fuels and industrial processes has wide-spread public effects, leading to global climate change and acidification of the oceans. Climate change in tu ...
STTRPhase I2023Department of Energy -
Resilient Coatings for Roller Bearings in Liquid Metal Reactors
Amount: $206,500.00The Office of Nuclear Energy seeks to produce durable components for next generation liquid-sodium cooled fast-spectrum nuclear reactors. Specifically, they want low-cost and short lead-time methods t ...
SBIRPhase I2023Department of Energy -
Electrochemical Recycling of Carbon Fiber Composite Wind Turbine Components
Amount: $205,000.00Deployment of wind turbines with longer blades and high hub heights is a critical path towards improving the economics of wind energy. These large wind turbines use carbon fiber composites in order to ...
SBIRPhase I2023Department of Energy -
Electrochemically Enabled Mineralization of Produced Water via Anthropogenic CO2
Amount: $255,000.00Emissions of carbon dioxide from burning of fossil fuels and industrial processes has wide-spread public effects, leading to global climate change and acidification of the oceans. Climate change in tu ...
SBIRPhase I2023Department of Energy -
Sustainable Recovery of Critical Materials from Fuel Cells/Electrolyzers
Amount: $206,500.00Recycling platinum group metals from end-of-life fuel cells and electrolyzers through traditional hydro/pyrometallurgical processes can lead to off-gassing of toxic fluorinated compounds. These recycl ...
SBIRPhase I2023Department of Energy -
Manufacturing Method to Produce Complex 316H SS PM HIP Components
Amount: $256,500.00Methods are sought to improve creep-fatigue performance of materials formed using powder metallurgical hot isostatic pressing. By developing Powder Metallurgical-Hot Isostatic Pressing operational con ...
STTRPhase I2023Department of Energy -
Climate Enhancing Resource Utilization Through Ultra-low-temperature, Electrolytic Carbon Dioxide Valorization on Mars
Amount: $156,498.00Supporting human life on long-tern space exploration missions, such as manned missions to the surface of Mars, require sustainable resource utilization with minimal support from Earth. In response to ...
STTRPhase I2023National Aeronautics and Space Administration -
Extraction and Utilization of Water and Gases from Icy Lunar Regolith
Amount: $156,500.00NASArsquo;s in-situ resource utilization (ISRU) mission is to put in place a sustainable infrastructure that will allow human habitation on Moon with minimal support from earth. One particular resourc ...
SBIRPhase I2023National Aeronautics and Space Administration