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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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SBC: LYNNTECH INC. Topic: N/AN/A
SBIR Phase II 2000 Environmental Protection Agency -
N/A
SBC: LYNNTECH INC. Topic: N/AN/A
SBIR Phase I 2000 Department of Agriculture -
A New Technique for Ante-Mortem Control of Pathogens in Broilers
SBC: LYNNTECH INC. Topic: 83NA
SBIR Phase II 2000 Department of Agriculture -
The Expression of the Sweet Protein Brazzein in Maize
SBC: Applied Biotechnology Institute, Inc. Topic: N/ABrazzein is a sweet plant protein recently discovered at the University of Wisconsin. It is the subject of four issued U.S. patents. The protein is 500 to 2000 times sweeter than sucrose and has the functional characteristics, such as taste and stability, required to be a leading commercial sweetener. Expression of the Brazzein gene in maize should yield the equivalent ¿ ton of sugar per ton of m ...
SBIR Phase II 2000 Department of Agriculture -
N/A
SBC: Applied Biotechnology Institute, Inc. Topic: N/AN/A
SBIR Phase II 2000 Department of Agriculture -
N/A
SBC: Biomedical Development Corporation Topic: N/AN/A
SBIR Phase I 2000 Department of Agriculture -
N/A
SBC: DACCO SCI, INC. Topic: N/AN/A
SBIR Phase I 2000 Department of Agriculture -
N/A
SBC: Lone Star Farm Topic: N/AN/A
SBIR Phase I 2000 Department of Agriculture -
N/A
SBC: LYNNTECH INC. Topic: N/AN/A
SBIR Phase I 2000 Department of Agriculture -
N/A
SBC: LYNNTECH INC. Topic: N/ANot Available The purpose of the proposed research is to show that significant improvements in the performance of electrically tunable microwave devices can be obtained using a novel type of superlattice structures. The approach is based on recent work at Neocera showi
SBIR Phase I 2000 Environmental Protection Agency