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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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Determine and Confirm the Field Use Protocol for NANOProtect ¿Non-Toxic Decontaminate for Facilities and Equipment Following Bio Attack
SBC: BLUEWILLOW BIOLOGICS INC Topic: N/ANanoBio Corporation¿s antimicrobial nanoemulsion technology was developed by Dr. James R. Baker at the University of Michigan Medical School over a period of seven years. Reschard was funded by grants for DARPA (Defense Advanced Research Program Agency), which identified a need to have a non-toxic, non-corrosive biodefence decon material that can decontaminated equipment, personnel, structures, ...
SBIR Phase I 2004 Environmental Protection Agency -
A Versatile Biomimetic Approach to Environmentally Friendly and Energy-Efficient Processing of Nanosturctured Composites
SBC: Technova Corporation Topic: N/ABiomimetic processing and structural principles will be adapted towards environmentally friendly and energy-efficient development of hybrid nanocomposites with gradient structures that promise to optimally meet the thermo-mechanical performance requirements in aerospace structures and other applications. Self-assembly processes accelerated by electrical means will be used to build nano-layered co ...
SBIR Phase I 2004 Environmental Protection Agency -
A Versatile Biomimetic Approach to Environmentally Friendly and Energy-Efficient Processing of Nanostructured Composites
SBC: Technova Corporation Topic: C3NCERA1Biomimetic processing and structural principles will be adapted towards environmentally friendly and energy-efficient development of hybrid nanocomposites with gradient structures that promise to optimally meet the thermo-mechanical performance requirements in aerospace structures and other applications. Self-assembly processes accelerated by electrical means will be used to build nano ...
SBIR Phase I 2004 Environmental Protection Agency -
Reformat Current NON-TOXIC Hard Surface Sanitizer Formulation to Inactivate and Kill B. Anthraces and Other Bio-Warfare Pathogens
SBC: BLUEWILLOW BIOLOGICS INC Topic: C3NCERA4Antimicrobial nanoemulsion technology was developed by Dr. James Baker at the University of Michigan Medical School over a period of 5 years. That research was funded by grants from the Defense Advanced Research Programs Agency (DARPA). DARPA identified a need for a nontoxic, noncorrosive, biodefense decontamination material that can decontaminate equipment, personnel, structures, and ...
SBIR Phase I 2004 Environmental Protection Agency -
Environmentally Safe Silane Technology for Adhesion of Rubber to Tire Cord Steel
SBC: Aeromet Technologies, Inc. Topic: C3NCERPACurrent methods of rubber/metal bonding lead to significant environmental concerns. The largest single commercial rubber-bonding application is the bonding of steel tire cords to sulfur-vulcanized natural rubber compounds. The current processes require that cobalt be added to the rubber to provide durable bonds. Cyanide also is used in the brass plating of steel tire cords. Tire separa ...
SBIR Phase II 2004 Environmental Protection Agency -
N/A
SBC: ADVANCED FUEL RESEARCH, INC. Topic: N/AN/A
SBIR Phase I 2000 Environmental Protection Agency -
N/A
SBC: ADVANCED FUEL RESEARCH, INC. Topic: N/AN/A
SBIR Phase II 2000 Environmental Protection Agency -
N/A
SBC: EarthFax Development Corp. Topic: N/ANot Available Commercial coarse grain dielectric based ceramic capacitors are ineffective for use in high energy storage and delivery applications since the dielectric's permittivity decreases sharply when the applied voltage is increased. Thus, the energy storage dens
SBIR Phase I 2000 Environmental Protection Agency