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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 -
Near-field thermophotovoltaic system with nanostructured absorber/emitter for high-efficiency radiant energy transfer
Amount: $224,998.00Radiant energy conversion, storage, and transfer eliminate the mass transfer process induced power output limitation, and open a new vista for energy utilization. An effective system for absorbing rad ...
SBIRPhase I2022Department of Defense Defense Advanced Research Projects Agency -
Concentric Ultra-Dark Solar-Thermal Absorber/Metasurface Thermal Emitter for Thermophotovoltaic Power Conversion
Amount: $149,998.19Maintaining the desired the thermal balance of a spacecraft in space requires control of solar and thermal radiation. Effectively controlling and unitizing the solar absorption and thermal emission pr ...
SBIRPhase I2022Department of Defense Air Force
