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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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SBIR Phase I: Use of Dynamic Electric Field Gradients for the Crystallization of Proteins
SBC: BioCrystals, LLC Topic: BTThis Small Business Innovation Research Phase I project is for the development of technology to crystallize proteins using less sample and with higher speed and success than current high throughput protein crystallization methods. Protein crystallization is an intermediate step in determining the precise three-dimensional shape of a protein, and proteins are involved in virtually every cellular pr ...
SBIR Phase I 2008 National Science Foundation -
STTR Phase I:Video Analysis Techniques for Computer-Aided Quality Control for Colonoscopy
SBC: EndoMetric, LLC Topic: BTThis Small Business Technology Transfer Phase I project will develop algorithms for a quality control system for colonoscopy (a procedure where the mucosa of the large bowel is inspected via a flexible tube with a camera on it) that has contributed to a marked decline in the number of colorectal cancer related deaths. However, recent data suggest that there is a significant miss-rate for the detec ...
STTR Phase I 2008 National Science Foundation -
SBIR Phase I: Reducing Diesel Fuel Consumption in Recovering Woody Biomass
SBC: Fleenor Manufacturing Inc. Topic: EOThis Small Business Innovation Research Phase 1 project develops a technology by which diesel fuel consumption can be significantly reduced while increasing productivity in recovering woody biomass. Diesel fuel is the number one operating cost of an industrial grinder and it is estimated that the diesel fuel consumed in processing the millions of tons of woody wastes each year in the United States ...
SBIR Phase I 2008 National Science Foundation -
SBIR Phase II: Structurally Integrated Organic Light Emitting Device-Based Sensors for Dissolved Oxygen in Water
SBC: Integrated Sensor Technologies, Inc. Topic: ELThis SBIR Phase II project aims to develop and commercialize a novel, next-generation photoluminescence (PL)-based, palm-size and miniaturizable dissolved oxygen (DO) sensor. DO sensors are primary monitors of water quality in industrial wastewater treatment. The new sensor is based on a pioneering platform for PL-based biochemical sensors where the excitation source is a pulsed organic light emit ...
SBIR Phase II 2007 National Science Foundation -
STTR Phase I: High Relative Permittivity Packaging to Enhance MEMS Gyroscopic Sensors
SBC: MEMSense, LLC Topic: ELThis Small Business Technology Transfer (STTR) Phase I project will seek to significantly enhance the performance of MEMS gyroscopic sensors through the use of innovative packaging. This effort will be the firs step in the commercialization of a technique for augmenting electrostatic MEMS devices through hermetically packaging them in a gas chemistry that possesses a relative permittivity signific ...
STTR Phase I 2007 National Science Foundation -
STTR PHASE I: Application of an Electrostatic Actuator Stable-Range-of-Motion Enhancement Control Law to Improve MEMS Gyroscopic Sensors
SBC: MEMSense, LLC Topic: ELThis STTR Phase I research project will seek to significantly reduce the size and cost of MEMS gyroscopes through improving the internal electrostatic actuators. Specifically, this effort will commercialize Auburn University's patent protected technique for extending the stable range of motion of micromachined gap-closing actuators, so that the actuator size can be reduced while still producing th ...
STTR Phase I 2008 National Science Foundation -
SBIR Phase I: The Novel Technology Beyond Bt Era to Help Plant Self-defense
SBC: MSTRS Technologies Inc. Topic: BTThis Phase I SBIR project develops a novel technology to help plants defend themselves against aphid attack. The currently available insecticidal control methods have the risks of killing beneficial insects and polluting the environment. Plants are capable of using aphid-induced volatile signals for self-defense. Many aphid predators use these signals to increase their foraging efficiency. This pr ...
SBIR Phase I 2008 National Science Foundation -
STTR Phase I: Process to Produce Powder Metal Fluorides
SBC: Nano-Electrochem, Inc. Topic: MIThis Small Business Technology Transfer (STTR) Phase I project aims to develop a novel chemistry to prepare metal fluorides by the direct reaction of metals with fluorocarbons. The new process is highly suited to the manufacture of: (1) wires for optical communications; (2) high-surface-area metal fluoride catalysts used in the generation of fluoropolymers; and, (3) optical thin films such as an ...
STTR Phase I 2007 National Science Foundation -
SBIR Phase I: Advanced Materials- Nanolaminate Permanent Magnets through Excimer Laser Surface Modification
SBC: Photon Energy Technology Topic: AMThis Small Business Innovation Research (SBIR) Phase I project will develop nanolaminate Nd-Fe-B permanent magnets that will increase their operating temperatures, potentially expanding their applications in automobiles and others. An advanced yet affordable excimer laser surface modification method involving deposition and annealing will be employed to achieve the nanoscale layers of higher coerc ...
SBIR Phase I 2007 National Science Foundation -
SBIR Phase I: Advanced Materials- Nano-diamond Coatings for Light-Weight Engine Components
SBC: Photon Energy Technology Topic: AMThis SBIR Phase I project aims to develop a novel surface modification technology for aluminum alloys used in automotive internal combustion engines to improve resistance to friction. The related energy loss due to wear of components directly impacts the fuel efficiency of the automobile. The process to be used is a CO2-laser-based technique, combined with a fluidized-bed method to coat the compon ...
SBIR Phase I 2008 National Science Foundation