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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. Modified Collins Cryocooler for Cryo-Propellant Thermal Management

    SBC: Advanced Mechanical Technology, Inc.            Topic: T402

    Future lunar and planetary explorations will require the storage of cryogenic propellants, particularly liquid oxygen (LOX) and liquid hydrogen (LH2), in low earth orbit (LEO) for periods of time ranging from days to months, and possibly longer. LEO is a relatively warm thermal environment and without careful thermal management, significant quantities of stored liquid cryogens can be lost due to ...

    STTR Phase I 2008 National Aeronautics and Space Administration
  2. STTR Phase I: Diamond Carbon Coated Graphite-Copper Material for Use in RF Power Amplifier Packaging

    SBC: ADVANCED THERMAL TECHNOLOGIES            Topic: EO

    This Small Business Technology Transfer (STTR) Phase I project is focused on the development of a unique diamond carbon coated graphite-copper composite material. The composite material will be used to produce low thermal resistance packaging components for use in RF power amplifiers. Under the Phase I effort, a low-cost diamond carbon coating process will be demonstrated. There is a critical need ...

    STTR Phase I 2008 National Science Foundation
  3. Ultrasound Assisted Oxidative Desulfurization of JP-8 Fuel

    SBC: AERODYNE RESEARCH INC            Topic: A07T017

    The objective of this work is to develop a compact, robust process that reduces the sulfur content of jet fuel to less than 10 ppm prior to its reformation and use in a solid oxide fuel cell (SOFC) fuel cell. The target power range of the SOFC is 2 kW. In addition to military applications, the desulfurization technology will be compatible for SOFCs used for emergency or backup power generation, ...

    STTR Phase II 2008 Department of DefenseArmy
  4. Printed transparent backplane for displays and spatial light modulators based on organic thin film transistors

    SBC: AGILTRON, INC.            Topic: ST081015

    Recent materials development together with an improving understanding of organic transistors has enabled solution-processed materials that show good performance, with high transparency in the visible range. In this program, leveraging on our extensive experience in organic material development and large scale organic material deposition by solution based processing, AGILTRON and Stanford Universit ...

    STTR Phase I 2008 Department of DefenseDefense Advanced Research Projects Agency
  5. Improved Solid-State Neutron Detector

    SBC: AGILTRON, INC.            Topic: 37a

    Improved methods of neutron detection are needed not only for nuclear physics research but also for international control of weapons and neutron based therapies in medical applications. He-3 tube-based neutron detectors and planar solid-state neutron detectors are the two currently available technologies for thermal neutron detection. Although He-3 tube-based neutron detectors have efficiencies ...

    STTR Phase I 2008 Department of Energy
  6. 5V, High Gain, High Sensitivity Photomultiplier Detector

    SBC: AGILTRON, INC.            Topic: 26a

    The gamma ray spectrometers used for nuclear physics research at national laboratories are expensive, bulky, and limited in maximum count rate and other performance measures. Scintillators would be a viable alternative, provided that conventional glass photomultiplier tubes could be replaced with a high quantum efficiency, UV sensitive solid state detector that operates at low voltage, has low no ...

    STTR Phase II 2008 Department of Energy
  7. Photonic WDM Digital Beamformer

    SBC: AGILTRON, INC.            Topic: N08T007

    An innovative concept for a scalable Digital Beamformer that can be applied to the full range of Navy radars/RF communication is proposed. The concept is photonics based and will support transmit/receive applications over the 0.1 to 40 GHz, and V bands. The design provides a digitally controlled True Time Delay based Beamformer effectively adaptive to a phased array in any portion of the spectral ...

    STTR Phase I 2008 Department of DefenseNavy
  8. Portable High Resolution Imaging for NDI of Hot Section Aero Turbine Components

    SBC: RADIATION MONITORING DEVICES, INC.            Topic: N06T011

    New technology is needed for the nondestructive inspection (NDI) of defects in gas turbine engines. This is particularly true for components such as turbine blades with fretting fatigue defects that are difficult to detect and characterize with existing NDI equipment. The lack of detailed flaw detection and characterization raises safety concerns, hampers fleet readiness and negatively impacts the ...

    STTR Phase II 2008 Department of DefenseNavy
  9. STTR Phase I: Thermoreflectance for Defect Mapping and Process-Control of Solar Cells

    SBC: Alenas Imaging LLC            Topic: EO

    This Small Business Technology Transfer (STTR) Phase I project will demonstrate a new method of thermographic imaging to improve the manufacturing yield and energy conversion efficiency of silicon photovoltaic solar cells. Although thermographic imaging is an ideal method for locating the defects and shunts in solar cells which compromise their efficiency, conventional infrared cameras do not have ...

    STTR Phase I 2008 National Science Foundation
  10. Mixed Initiative Machine for Instructed Computing: MIMIC II

    SBC: APTIMA INC            Topic: N07T031

    In less than a decade, UAVs have transitioned from a curiosity on the battlefield to a core capability for intelligence and attack. However, the intelligence that drives tactical decision making and flight control remains firmly lodged in the heads of expert operators. As more UAVs and other unmanned vehicles enter the battlespace, intelligent, autonomous UAVs will become a necessity. To address ...

    STTR Phase II 2008 Department of DefenseNavy
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