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Award Data
The Award database is continually updated throughout the year. As a result, data for FY24 is not expected to be complete until March, 2025.
Download all SBIR.gov award data either with award abstracts (290MB)
or without award abstracts (65MB).
A data dictionary and additional information is located on the Data Resource Page. Files are refreshed monthly.
The SBIR.gov award data files now contain the required fields to calculate award timeliness for individual awards or for an agency or branch. Additional information on calculating award timeliness is available on the Data Resource Page.
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High Rate Ammonia Synthesis by Intermediate Temperature Solid-State Alkaline Electrolyzer (ITSAE)
SBC: STORAGENERGY TECHNOLOGIES INC Topic: DEFOA0001563Ammonia is not only one of the most produced chemicals worldwide for fertilizer, but also a real carbon-neutral liquid fuel (CNLF), which is important for renewable energy storage and transportation. The well-known traditional Haber-Bosch (HB) process annually generates more than 120 million metric tons of ammonia for fertilizer, with about ~1.0% of the world’s annual energy consumpti ...
SBIR Phase II 2017 Department of EnergyARPA-E -
Renewable electricity-powered carbon dioxide conversion to ethanol for storage and transportation
SBC: TWELVE BENEFIT CORPORATION Topic: DEFOA0001563Cost-effective electrochemical reduction of CO2 (ECO2R) in the atmosphere, is the holy grail of green chemistry. Using only water and electricity as other inputs, ECO2R has been demonstrated to produce ethanol with pure oxygen as a co-product. Ethanol is a versatile fuel that can be used in fuel cells, reformed to make hydrogen, or burned in an internal combustion engine. Ethanol produced from air ...
SBIR Phase II 2017 Department of EnergyARPA-E -
Dynamic IR Window Film to Improve Window Energy Efficiency
SBC: IR Dynamics Topic: DEFOA0001429IR Dynamics, LLC will develop a low-cost nanomaterial technology to be incorporated into flexible window films that will improve thermal insulation and solar heat gain. The team's nanomaterial will incorporate two materials. First, low-cost nanosheets will increase thermal resistance. Second, a new type of nanomaterial will allow heat, in the form of infrared radiation (IR) from the sun, to pass t ...
SBIR Phase II 2016 Department of EnergyARPA-E -
Biofueled Thermoelectric Cookstove
SBC: HI-Z TECHNOLOGY, INC. Topic: 15NCER02Over 820 million Indians, about 65% of its population, cook on polluting open fires, causing ~1 million premature deaths annually. Fifty million households have no electricity. The Power Stove is a household energy solution combining clean cooking and reliable, ondemand power. Clean combustion and thermoelectric power technology, make it a high performance, user desirable solution based on low cos ...
SBIR Phase II 2017 Environmental Protection Agency -
High-Efficiency Nutrient Removal and Recovery for Achieving Low Regulatory Limits
SBC: MICROVI BIOTECH, INC. Topic: 15NCER05Discharging nutrients such as phosphorus and ammonia to surface waters can have far reaching health and environmental impacts, including the formation of toxic algae blooms, eutrophication, and loss of water_x000D_ quality. The wastewater industry has a significant need for high-efficiency nutrient removal technologies. However, current nutrient removal treatment technologies can be costly and in ...
SBIR Phase II 2017 Environmental Protection Agency -
Stationary Wide-Angle Concentrator PV System
SBC: GLINT PHOTONICS, INC. Topic: MOSAICConcentrator PV systems using highly efficient multijunction photovoltaic cells hold out the promise of very low-cost solar electricity generation, but their adoption has been hamstrung by the requirement for bulky mechanical trackers that add cost, diminish land use, increase maintenance, and exclude roof-top installations. The Stationary Wide-Angle Concentrator (SWAC) PV system will provides the ...
SBIR Phase II 2016 Department of EnergyARPA-E -
Retrofittable and Transparent Super-Insulator for Single-Pane Windows
SBC: NANOSD, INC. Topic: DEFOA0001429NanoSD, Inc. with its partners will develop a transparent, nanostructured thermally insulating film that can be applied to existing single-pane windows to reduce heat loss. To produce the nanostructured film, the team will create hollow ceramic or polymer nanobubbles and consolidate them into a dense lattice structure using heat and compression. Because it is mostly air, the resulting nanobubble s ...
STTR Phase II 2016 Department of EnergyARPA-E -
Renewable electricity-powered carbon dioxide conversion to ethanol for storage and transportation
SBC: TWELVE BENEFIT CORPORATION Topic: DEFOA0001563Cost-effective electrochemical reduction of CO2 (ECO2R) in the atmosphere, is the holy grail of green chemistry. Using only water and electricity as other inputs, ECO2R has been demonstrated to produce ethanol with pure oxygen as a co-product. Ethanol is a versatile fuel that can be used in fuel cells, reformed to make hydrogen, or burned in an internal combustion engine. Ethanol produced from air ...
SBIR Phase II 2017 Department of EnergyARPA-E -
High Rate Ammonia Synthesis by Intermediate Temperature Solid-State Alkaline Electrolyzer (ITSAE)
SBC: STORAGENERGY TECHNOLOGIES INC Topic: DEFOA0001563Ammonia is not only one of the most produced chemicals worldwide for fertilizer, but also a real carbon-neutral liquid fuel (CNLF), which is important for renewable energy storage and transportation. The well-known traditional Haber-Bosch (HB) process annually generates more than 120 million metric tons of ammonia for fertilizer, with about ~1.0% of the world’s annual energy consumpti ...
SBIR Phase II 2017 Department of EnergyARPA-E -
Retrofittable and Transparent Super-Insulator for Single-Pane Windows
SBC: NANOSD, INC. Topic: DEFOA0001429NanoSD, Inc. with its partners will develop a transparent, nanostructured thermally insulating film that can be applied to existing single-pane windows to reduce heat loss. To produce the nanostructured film, the team will create hollow ceramic or polymer nanobubbles and consolidate them into a dense lattice structure using heat and compression. Because it is mostly air, the resulting nanobubble s ...
SBIR Phase I 2016 Department of EnergyARPA-E