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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. Megapixel Uncooled Photomechanical LWIR Imager

    SBC: AGILTRON, INC.            Topic: SOCOM07005

    This Phase II technology pursuit is a follow-on research and development effort to USSOCOM’s Phase I SBIR Contract No. H92222-07-P-0051. As the result of this follow-on Phase II effort, Agiltron shall provide and demonstrate two (2) very high resolution, low power and low cost imagers that collect long wave infrared (LWIR) radiation and that produce imagery of a target object. BENEFITS: The Gove ...

    SBIR Phase II 2010 Department of DefenseSpecial Operations Command
  2. CZT Substrates for Improved MCT Detector Performance

    SBC: CAPESYM INC            Topic: MDA09022

    The work proposed here seeks to produce CZT substrates with superior qualities aimed at improving the performance of MCT detectors used in infrared detectors. The proposed work promises to overcome one of the major causes of dislocation formation in MCT structures.

    SBIR Phase I 2010 Department of DefenseMissile Defense Agency
  3. Growth of Large Area CZT Crystals

    SBC: CAPESYM INC            Topic: MDA08013

    The goal of this program is to produce large area Cadmium Zinc Telluride (CZT) substrates for growth of Mercury Cadmium Telluride (MCT) films for application in IR Focal Plane Arrays. Two growth processes will be pursued in this program. The grown CZT crystals will be processed into substrates. MCT films will be grown on these substrates and their properties will be characterized.

    SBIR Phase II 2010 Department of DefenseMissile Defense Agency
  4. Simulation Optimization Engine (SIMON II) for Missile Defense

    SBC: CHARLES RIVER ANALYTICS, INC.            Topic: MDA08036

    Missile defense remains a crucial component for protecting the United States and her allies from potential long-range threats. Modeling and simulation (M&S) is recognized by the Missile Defense Agency as a key enabling technology supporting Warfighters and analysts in ballistic missile defense system (BMDS) design, testing, performance assessment, training, wargaming, and system acquisition. The u ...

    SBIR Phase II 2010 Department of DefenseMissile Defense Agency
  5. Registration of EO and LIDAR using an Interoperability Architecture for Net-Centric Environments (RELIANCE)

    SBC: CHARLES RIVER ANALYTICS, INC.            Topic: SOCOM09003

    Currently deployed full motion video (FMV) sensors provide crucial real-time situational awareness, but suffer from limited field of view and lack of geographical context. Charles River proposes a system to augment current FMV displays with geographic information and real-time intelligence overlays to provide users with a better understanding of video content in the context of the battlefield. In ...

    SBIR Phase II 2010 Department of DefenseSpecial Operations Command
  6. Innovative Propulsion Systems for Missile Defense Interceptors

    SBC: Digital Solid State Propulsion, Inc            Topic: MDA09001

    New and emerging threats are requiring that even boost phase propulsion become both more powerful, and more agile/flexible for improved target interception capabilities. At the same time these new boost propellants must also be safer to make and use, without increasing production costs dramatically. To meet these needs Digital Solid State Propulsion LLC (DSSP) has developed a family of Electric ...

    SBIR Phase I 2010 Department of DefenseMissile Defense Agency
  7. Electric Pyrogens and Systems for Safer In-line Inititation of Rocket Motors

    SBC: Digital Solid State Propulsion, Inc            Topic: MDA08045

    We will use our newly developed smart energetic materials to eliminate flame sensitive pyrogens and the bridge-wire connections for thermal ignition within initiators/squibs which will improve safety for Mil. Std. 1901A compliance. Unlike conventional materials, new pyrogen materials are insensitive to ignition by flame and so can not flame spread by impingement. However, new faster burning formu ...

    SBIR Phase II 2010 Department of DefenseMissile Defense Agency
  8. 3-D Epoxy Printed Fabrics (Woven, Knits, Stretch Knits) for Integrated Sharp Object Protection for Dive Suit or Dive Skin Garment and Body Mapped Prot

    SBC: EY TECHNOLOGIES            Topic: SOCOM10001

    EY Technologies (EYT) proposes to accomplish three key objectives in this effort: 1) Generate 3-D Epoxy Printed Fabric Surfaces for Integrated Dive-Suit Sharp Object Protection. 2) Generate 3-D Epoxy Printed Knit Fabrics for Dive-Skin Garment for Sharp Object Protection 3) Body Mapped Sharp Object Protection Dive-Suit Design EYT has partnered with Polartec®, HDM, WhitesDiving to address the lack ...

    SBIR Phase I 2010 Department of DefenseSpecial Operations Command
  9. Development of a Novel Highly-Efficient Nanofiber-based CO2 Absorbing Material

    SBC: Nano Terra, Inc.            Topic: SOCOM10002

    Nano Terra proposes the design and development of nanofiber-based CO2 absorbing materials which will increase the sorbent capacity while decreasing breathing resistance and increasing the rate of CO2 absorption. Metal oxide nanofibers capable of absorbing CO2 will be fabricated using electrospinning, in a technique pioneered by Nano Terra’s scientists. The CO2 absorbing capacity of the fibers wi ...

    SBIR Phase I 2010 Department of DefenseSpecial Operations Command
  10. Compact Dual-mode Laser for LADAR

    SBC: JGM ASSOCIATES, INC.            Topic: MDA09002

    A compact "dual-mode" 1-micron laser source will be developed that can be switched "on the fly" between a high-pulse-rate, lower-energy emission mode and a lower-pulse-rate, high-energy emission mode. Pulse duration will be less than 10 ns and beam quality will be near-diffraction-limited.

    SBIR Phase I 2010 Department of DefenseMissile Defense Agency
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