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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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Use of the halophyte Sarcocornia utahensis as a phytoremediation strategy for the amelioration of saline-sodic impacted soils...
SBC: BLUE MOON BULBS LLP Topic: N/AThe environmental impacts of coal bed methane development (CBM) in Montana and the Rocky Mountain States are well documented. CBM exploration is expanding rapidly with the nation's focus on energy independence and the relative ease of extraction. Extraction of CBM necessitates pumping large volumes of often saline discharge waters to the surface. The impacts of those waters include: reductions in ...
SBIR Phase I 2009 Department of Agriculture -
Ridge Waveguide Structures in Magnesium-Doped Lithium Niobate
SBC: ADVR, INC. Topic: T401In this NASA Phase I STTR effort, the feasibility of fabricating isolated ridge waveguides in 5% magnesium-doped lithium niobate (5% MgO:LN) will be established. Ridge waveguides in MgO:LN will significantly improve the power handling and conversion efficiency, increase photonic component integration, and be well suited to space based applications. The key innovation in this effort is to combine ...
STTR Phase I 2009 National Aeronautics and Space Administration -
Fabrication of Advanced Waveguide Structures for Efficient Violet and Near-UV Generation
SBC: ADVR, INC. Topic: N/AThis SBIR Phase I effort will establish the feasibility of fabricating advanced waveguide structures in potassium titanyl phosphate (KTP) capable of efficiently generating 25 to 40 mW of frequency converted light in the 395 to 480 nm. The key innovation in this effort is to utilize KTP waveguides in a single-pass frequency doubling device to efficiently produce the desired laser wavelengths and po ...
SBIR Phase I 2009 Department of CommerceNational Institute of Standards and Technology -
Compact, Wavelength Stabilized Seed Source for Multi-Wavelength Lidar Applications
SBC: ADVR, INC. Topic: S101This SBIR Phase I effort proposes to establish the feasibility of developing a compact, high performance laser source for integration into the next generation seed laser system for high stability, multi-wavelength lidar applications such as NASA Langley's HSRL program. Combination of the high performance laser source together with ADVR's integrated Planar Lightwave Circuit (PLC) technology will p ...
SBIR Phase I 2009 National Aeronautics and Space Administration -
Electro-Optic Tunable Laser Sensor
SBC: ADVR, INC. Topic: S111This Small Business Innovation Research Phase I project will develop a compact, rugged, rapidly and widely tunable laser based on a quantum cascade diode laser at mid-infrared wavelengths. The key innovation in this effort is the use of an engineered electro-optic tuning element in an external cavity laser to provide control of the laser wavelength through an applied voltage. AdvR has previously ...
SBIR Phase I 2009 National Aeronautics and Space Administration -
High Efficiency Up conversion Single-Photon-Detector for 1550 nm Signal
SBC: ADVR, INC. Topic: N/AThis NIST Phase II SBIR effort will two low noise single photon detectors using MgO doped LiNbO3 (LN) periodically poled waveguides and a 980nm (or similar appropriate wavelength) pump to up convert 1550nm photons to 600nm to allow for detection by photomultiplier tube (PMT). The key innovation is using low noise periodically poled waveguides with a long wavelength (1800nm) pump leading to higher ...
SBIR Phase II 2009 Department of CommerceNational Institute of Standards and Technology -
Periodically Poled Materials for UV Generation
SBC: ADVR, INC. Topic: A09AT008Army quantum information researchers have an immediate need for improved stable, narrowband violet and UV laser sources with 10–100 mW output and 10 MHz–10 GHz tuning. These sources are required for numerous ion and atom qubits functions including photoionization, Doppler cooling, state initialization, and detection. The cost and complexity of currently available UV lasers hampers current ef ...
STTR Phase I 2009 Department of DefenseDefense Advanced Research Projects Agency -
SONOGRAPHIC ANALYSIS FOR RAPID DETECTION OF VARROA MITES AND OTHER PATHOLOGIES WITHOUT OPENING THE BEEHIVE
SBC: BEE ALERT TECHNOLOGY, INC. Topic: N/ABeekeeping is a billion dollar industry, of which honey production plays only a small part. Most beekeepers make their money with crop pollination, charging up to $120 per hive for this service. Crop growers want healthy, strong colonies. It takes a skilled beekeeper about 10 minutes to inspect a colony; the Colony Health Scanner performs the same function in about 2 minutes, and can be operated b ...
SBIR Phase II 2009 Department of Agriculture -
Hand-Held Sensor for Remotely Mapping Carbon Dioxide Pollution Sources
SBC: Bridger Photonics, Inc. Topic: N/AIn 2007, the U.S. Supreme Court ruled that carbon dioxide (CO2) is a pollutant under the federal Clean Air Act. The ruling allows the EPA to regulate CO2 emissions. Such regulation will entail monitoring a wide variety of pollution sources including automobile exhaust systems, industrial emission sources, and carbon sequestration sites. With presently available technologies, EPA personnel will ...
SBIR Phase I 2009 Environmental Protection Agency -
STTR Phase II: Compact, Low-cost Remote Sensing of Methamphetamine Labs
SBC: Bridger Photonics, Inc. Topic: N/AThis Small Business Technology Transfer (STTR) Phase II project addresses an urgent law enforcement need for a sensitive, portable, low-cost, laser remote sensor to detect illicit methamphetamine (meth) production labs from a distance. The research objectives are to: 1. Refine, optimize, and package laser subsystem, 2. Design, construct, and optimize receiver subsystem, 3. Integrate laser and rece ...
STTR Phase II 2009 National Science Foundation