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Award Data

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The Award database is continually updated throughout the year. As a result, data for FY20 is not expected to be complete until September, 2021.

  1. MEMS Lamellar Based Interferometer for the Detection of Toxic Chemicals

    SBC: AGILTRON, INC.            Topic: CBD10104

    Leveraging on Agiltron’s industry leading development of optical MEMS devices and the PI’s experience with FTIR spectrometer design, we propose to develop a new class of high performance compact and rugged FTIR spectrometers for LWIR optical range. The design is based on the MEMS lamellar mirror technique. Although this approach is not new, it has not yet been efficiently applied to LWIR, and ...

    SBIR Phase I 2010 Department of DefenseOffice for Chemical and Biological Defense
  2. 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
  3. Low noise longwave infrared (8-12µm) focal plane array with high sensitivity for passive hyperspectral standoff detection

    SBC: APPLIED NANOFEMTO TECHNOLOGIES LLC            Topic: CBD10105

    Longwave infrared (LWIR, 8-12µm) focal plane arrays (FPAs) play an important role in hyperspectral chemical and biological sensing. Existing thermal detectors are unable to meet the high sensitivity and fast response requirements of many hyperspectral chemical and biological sensing applications. Photodetectors and FPAs based on photon excited electron generation process can fulfill the speed and ...

    SBIR Phase I 2010 Department of DefenseOffice for Chemical and Biological Defense
  4. 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
  5. 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
  6. 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
  7. High-Speed Resonant FTIR Spectrometer for Surface Contaminant Measurements

    SBC: Optra, Inc.            Topic: CBD09107

    OPTRA proposes the development of a high speed resonant Fourier transform infrared (FTIR) spectrometer for surface contaminant detection via thermal luminescence. The system will generate 10,000 spectra per second over the 7-14 m spectral range at 8 cm-1 spectral resolution; the NESR is projected at 4×10-9 W/(cm2•ster•cm-1) over a 100 s integration time. The key to the system is a res ...

    SBIR Phase II 2010 Department of DefenseOffice for Chemical and Biological Defense
  8. Compact, Covert Periscope with 360 Degree Simultaneous Day/Night Coverage

    SBC: REMOTEREALITY CORP.            Topic: SOCOM10003

    RemoteReality proposes to design and develop a very high resolution, omnidirectional compact 360 degree periscope based on RemoteReality''s unique optical designs and very high resolution imagers with embedded processing. Employing a combination of RemoteReality’s catadioptric cameras with a rotating mirror in a pressure housing with a wide spectral band zoom lenses and fixed LLLTV and SWIR came ...

    SBIR Phase I 2010 Department of DefenseSpecial Operations Command
  9. Dynamic Multicomponent Optical Analyzer for Chemical Weapon (CW) Exposure Studies

    SBC: Spectral Sciences, Inc.            Topic: CBD08104

    Spectral Sciences Inc. proposes to develop a sensor for real-time trace-level analysis of complex multicomponent gas mixtures containing Chemical Weapon (CW) agents and interferents. The approach is based on the combination of a digitally controlled widely tunable quantum cascade laser source and an advanced photoacoustic signal transducer. In Phase I, Spectral Sciences Inc. has demonstrated the ...

    SBIR Phase II 2010 Department of DefenseOffice for Chemical and Biological Defense
  10. Switchable Surfaces for Vapor Stream Concentration(1001-344)

    SBC: Triton Systems, Inc.            Topic: CBD09106

    Trace detection usually requires a vapor concentrator that collects dilute analytes from a vapor sample and delivers them at a higher concentration to the detector. Conventional vapor concentrators tend to use either cryogenics, where vapors are concentrated on a cooled surface and then desorbed via flash heating, or sorbent technology, such as zeolites, where vapors are absorbed before flash-hea ...

    SBIR Phase II 2010 Department of DefenseOffice for Chemical and Biological Defense
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