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Award Data

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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.

  1. Low Cost Stabilized Laser Diode System

    SBC: Ceebco, LLC            Topic: N/A

    This Phase 1 SBIR project aims to develop a frequency stabilized laser diode system suitable for application in optical metrology and in displacement measurement. The compact design of the semiconductor laser lends itself to many applications where a coherent light source is required, but space is at a premium. Some fields, such as precision optical metrology require a coherent light source whose ...

    SBIR Phase I 2012 Department of CommerceNational Institute of Standards and Technology
  2. Porous Membrane Electrode for Quantitative Detection of Toxins

    SBC: Mercury Science Inc.            Topic: 816N

    There is a need for a simple, portable, quantitative method to monitor the presence of Harmful Algal Blooms. Electrochemical detection offers some advantages for analysis, but traditional sensors are not practical for routine field use. Adapting colorimetric immunoassays on porous, flow-through electrodes can provide a means for rapid, low-cost, portable quantitative environmental analysis. Thi ...

    SBIR Phase I 2012 Department of Commerce
  3. High efficiency materials&processes for the reduction of CO2 to syngas

    SBC: Liquid Light, Inc            Topic: AF11BT07

    ABSTRACT: Liquid Light and Princeton University will develop an electrochemical process for syngas evolution that uses carbon dioxide and water as the feedstocks. Syngas evolved from the system will then be converted to JP-8 via existing Fischer-Tropsch systems. The syngas evolution process will be based on heterocyclic catalysts originally discovered at Princeton University. Research in Phase I ...

    STTR Phase I 2012 Department of DefenseAir Force
  4. Dynamic Assured Routing Technology (DART) for IP based Satellite Ad-Hoc Networks

    SBC: Foresight Wireless, LLC            Topic: AF11BT12

    ABSTRACT: Foresight Wireless, LLC (Foresight) proposes a novel autonomous bi-focal cross-layer routing solution, DART, to meet the Air Force"s objective, namely, to demonstrate novel IP routing protocols onboard satellites that would link user preferences and network conditions and improve end-to-end network performance, including heterogeneity of satellite nodes, interferences of satellite links ...

    STTR Phase I 2012 Department of DefenseAir Force
  5. Theoretical and experimental development of an atmospheric sensing suite for deep-turbulence research

    SBC: Radio-Hydro-Physics LLC            Topic: AF11BT41

    ABSTRACT: This Phase I SBIR will produce a concept, and algorithms, for a Sensor Suite which can be used as a research tool to characterize strong atmospheric turbulence. Previous and on-going theories, statistics, and empirical data will be evaluated to arrive at an optimal Sensor design concept. That Sensor may exploit the superior resolution and performance inherent in the Radio-Hydro-Physi ...

    STTR Phase I 2012 Department of DefenseAir Force
  6. Design and Analysis of Multi-core Software

    SBC: Zircon Computing LLC            Topic: OSD11T03

    The main challenges outlined in the acquisition program objectives are: 1. API abstraction is inadequate for complex architectures 2. Multi-core architectures are non-portable across hardware/OS 3. Testing and validation of concurrent code are complex and hard to model We already have a product called zNet, which is on the market and solves most of the above challenges. 1. zNet uses a ...

    STTR Phase I 2012 Department of DefenseAir Force
  7. A New Laser Based Sensor for Nuclear Fuel Reprocessing Safeguards

    SBC: Energy Research Company            Topic: 21c

    Energy Research Company (ERCo), together with Los Alamos National Laboratory, is developing a new laser-based sensor for improving the safety and efficiency of spent nuclear fuel reprocessing. In commercial-scale nuclear fuel reprocessing facilities there exists a stress between the operator and the inspectorate that results from an attempt to balance nuclear fuel production and international safe ...

    SBIR Phase I 2012 Department of Energy
  8. Structured Catalyst for Efficient Production of Renewable Jet Fuel

    SBC: Exelus, Inc.            Topic: 10b

    Extensive work on developing new, high yield biologic sources of triglycerides continues around the world in an effort to diversify the worlds energy sources. Triglycerides, such as vegetable and algal oils, naturally consist of long hydrocarbon chains, making them excellent starting points for fuels. However, the traditional approach of transesterifying these compounds to methyl or ethyl ethers a ...

    SBIR Phase I 2012 Department of Energy
  9. High-Power High-Efficiency Power Amplifiers for Synchrotron Light Sources

    SBC: Green Mountain Radio Research Company            Topic: 13d

    Accelerators used for nuclear-physics research require megawatts of radio-frequency energy. They currently employ vacuum-tube power amplifiers or conventional solid-state amplifiers that are inefficient and therefore consume a great deal of prime power. Many other applications including semiconductor processing, cellular-telephone base station transmitters and military communication systems simila ...

    SBIR Phase II 2012 Department of Energy
  10. Topic 60c- High-efficiency power amplifiers for Project X, Phase II

    SBC: Green Mountain Radio Research Company            Topic: 60c

    Accelerators used for nuclear-physics research require megawatts of radio-frequency energy. They currently employ vacuum-tube power amplifiers or conventional solid-state amplifiers that areinefficient and therefore consume a great deal of prime power. Many other applications including semiconductor processing, cellular-telephone base station transmitters and military communication systems similar ...

    SBIR Phase II 2012 Department of Energy
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