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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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MATHEMATICAL METHODS FOR EMISSION COMPUTED TOMOGRAPHY
SBC: Mathematical Technologies, Inc Topic: N/ATHE ABILITY TO MEASURE METABOLIC ACTIVITY, AS WELL AS THE ABILITY TO DISCRIMINATE AMONG DIFFERENT TISSUE TYPES, MAKE SPECT A POTENTIALLY POWERFUL MEDICAL IMAGING TOOL. HOWEVER,THE LOW RESOLUTION AND POOR IMAGE QUALITY THAT CHARACTERIZE SPECT IMAGES LIMIT THE CLINICAL USEFULNESS OF SPECT. MATHEMATICAL TECHNOLOGIES INC. BELIEVES THAT MATHEMATICAL METHODS ARE AVAILABLE WHICH WILL SIGNIFICANTLY IMPROV ...
SBIR Phase I 1991 National Science Foundation -
SBIR Phase I: Acoustic Microcavitation Assisted Fine Cleaning of Post-Chemical Mechanical Plana
SBC: RITEC Inc Topic: N/AN/A
SBIR Phase I 1998 National Science Foundation -
N/A
SBC: Micro Magnetics, Inc. Topic: N/AN/A
SBIR Phase I 2000 National Science Foundation -
N/A
SBC: RITEC Inc Topic: N/AN/A
SBIR Phase I 2000 National Science Foundation -
N/A
SBC: RITEC Inc Topic: N/AN/A
SBIR Phase II 2000 National Science Foundation -
SBIR/STTR Phase I: Scanning Magnetic Microscropy for Real-time Electromigration Imaging
SBC: Micro Magnetics, Inc. Topic: N/AThis Small Business Innovation Research (SBIR) Phase I project is designed to demonstrate the feasibility of developing a magnetic microscopy technique for real-time imaging of electrical current densities with sub-micron resolution for the analysis of electromigration (EM) processes. EM failure remains one of the most challenging problems facing the semiconductor industry. The microscopy techniq ...
SBIR Phase I 2002 National Science Foundation -
SBIR Phase I: Physiologic High Throughput Screening of Bioengineered Tissues
SBC: MYOMICS, INC. Topic: BTThe Small Business Innovation Research (SBIR) Phase I project will develop an innovative high-throughput/ high content drug screening platform utilizing three-dimensional human skeletal muscle tissue constructs which mimic in vivo skeletal muscle to quantify muscle force generation. The proposed drug testing platform will contribute to significant reductions in time and costs associated with brin ...
SBIR Phase I 2006 National Science Foundation -
SBIR Phase II: Physiologic High Throughput Screening of Bioengineered Tissues
SBC: MYOMICS, INC. Topic: BTThis Small Business Innovation Research (SBIR) Phase II research develops an innovative high-throughput/high content drug screening platform that utilizes three-dimensional human skeletal muscle tissue constructs that mimic in vivo skeletal muscle to quantify muscle force generation. Significant demands exist for new drugs to treat contractility disorders involving skeletal muscle. Myomics' propos ...
SBIR Phase II 2007 National Science Foundation -
SBIR Phase I: Replacement of Toxic and Polluting Cleaning Processes Using Vacuum Cycle Nucleation
SBC: METFAB Topic: BCThis Small Business Innovation Research (SBIR) Phase I project will develop a vacuum-based cleaning process that relies on the tendency of vapor bubbles to form at surface crevices where contaminate particles lodge. Upon implosion, the bubbles release a large amount of localized energy meant to dislodge particles. By focusing energy at the surface, less energy is required than in processes which ...
SBIR Phase I 2010 National Science Foundation -
SBIR Phase I:Rydberg Fingerprint Spectroscopy for Sensitive Identification of Isomerically-Dependent Environmental Pollutants. Test Case: Dioxins
SBC: RYON TECHNOLOGIES, INC Topic: BCThis SBIR Phase I project will develop a spectroscopic device for detecting and discriminating congeners of isomeric compounds based on their Rydberg spectroscopic "fingerprints." It enables the development of a new analytical tool for the detection of dioxins which are environmental contaminants that arise from combustion of organic materials in the presence of chlorine. Dioxins build up in huma ...
SBIR Phase I 2010 National Science Foundation