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Award Data
The Award database is continually updated throughout the year. As a result, data for FY23 is not expected to be complete until September, 2024.
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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Recovery Act- Scale-up of the Nanomanufacturing of Coated Powders for Superior Battery Electrode Materials
SBC: ALD NANOSOLUTIONS, INC Topic: 09bThere is significant opportunity for energy efficiency improvements in the industrial and manufacturing sectors in the U.S., both from the production and consumption perspective. Higher energy density battery materials will play a role in both, through improved storage of electricity from renewable sources, the enabling of electric vehicles, and through the development of longer lasting, higher po ...
STTR Phase I 2010 Department of Energy -
Recovery Act- Ultra-Thin Antifouling Surface Treatments for Heat Exchangers
SBC: APPLIED THIN FILMS, INC Topic: 10aHeat exchangers are widely used in refrigeration, air conditioning, automotive, aerospace, and other advanced energy systems (such as fuel systems). Fouling of heat exchangers is a serious and longstanding problem that can result in decreased heat transfer efficiency, higher resistance to fluid flow, increased energy consumption, decreased heat exchanger lifetime, and increased downtime necessary ...
SBIR Phase I 2010 Department of Energy -
Recover Act- Ultra-Thin Antifouling Surface Treatments for Industrial Heat Exchangers
SBC: APPLIED THIN FILMS, INC Topic: 10aHeat exchangers are widely used in power generation, chemical production, petrochemical refining, air conditioning, automotive, aerospace, and many emerging industries including hybrid vehicles, fuel cell systems, thermal solar, and biomass processing plants. Fouling of heat exchangers is a serious and longstanding problem causing significant energy losses (0.25% of Gross National Product), premat ...
SBIR Phase II 2010 Department of Energy -
Exploiting GPUs for Scalable Network Intrusion Detection
SBC: ARIES DESIGN AUTOMATION, LLC Topic: 40aIn this proposed SBIR Phase I project, we will develop a proto
SBIR Phase I 2010 Department of Energy -
The Photo-Pneumatic CO2 Analyzer for Robotic Platforms
SBC: Atmospheric Observing Systems, Inc. Topic: 30bEighty-five percent of America
SBIR Phase I 2010 Department of Energy -
Insulation Materials and Processes for Helium Penetrations
SBC: COMPOSITE TECHNOLOGY DEVELOPMENT, INC. Topic: 66cThe United States
SBIR Phase I 2010 Department of Energy -
Recovery Act- Advanced Manufacturing Technologies for Composite Tidal Turbine Blades
SBC: COMPOSITE TECHNOLOGY DEVELOPMENT, INC. Topic: 06cThe U.S. Department of Energy is developing technologies to expand and improve the U.S.
SBIR Phase I 2010 Department of Energy -
Mobile Ice Nucleus Counter
SBC: Droplet Measurement Technologies, LLC Topic: 32cIce crystals can form spontaneously from the freezing of water droplets at temperatures colder than -38
STTR Phase I 2010 Department of Energy -
Recovery Act- Electromechanical Dewatering of Paper Pulp for Increased Energy Efficiency
SBC: ELTRON RESEARCH & DEVELOPMENT, INCORPORATED Topic: 10cPaper production is an energy intensive business. Dewatering alone accounts for a significant portion of the energy cost of paper production; 4-5 million Btu are required per ton of pulp processed. Dewatering is carried out first by mechanical dewatering, and then by evaporation, which occurs when the paper web is rolled over multiple heated rollers. Reducing evaporative dewatering energy requirem ...
SBIR Phase I 2010 Department of Energy -
Molecular Separations Using Micro-Defect Free Ultra Thin Films
SBC: ELTRON RESEARCH & DEVELOPMENT, INCORPORATED Topic: 27bGasification can provide the best path for development of power based on clean coal, as well as conversion of coal to other fuels and specialty chemicals. However, development of clean coal technologies requires carbon capture. To accomplish this, more efficient methods of CO2 separation from other gases are required. Current methods for separating carbon dioxide are energy and cost intensive. ...
SBIR Phase II 2010 Department of Energy