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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.

  1. Wideband RF Radomes Compatible with Conformal Antennas and Gun-Launched Hypersonic Environments

    SBC: FIRST RF CORPORATION            Topic: A21CT002

    Recent advancements in artillery, muzzle velocity, and post-launch propulsion technology have enabled gun-launched projectiles to travel faster and at longer ranges than ever before. To be most effective in flight and at range, the projectiles must incorporate RF sensors to enable advanced, mission-critical functionality. The RF sensors must also be able to survive and operate through extreme gun- ...

    STTR Phase I 2022 Department of DefenseArmy
  2. Development of Vat Polymerization Materials for Additive Manufacturing of Gun Propellant

    SBC: NALAS ENGINEERING SERVICES INC            Topic: A21CT003

    The US Army and Department of Defense are continuing in their investment in the development of energetic materials for use in additive manufacturing (AM) for propellants.  Nalas Engineering is partnering with Dr. Lori Groven at the South Dakota School of Mines and Technology to develop innovative liquid resin systems for use in additive manufacturing, specifically UV light-based curing technol ...

    STTR Phase I 2022 Department of DefenseArmy
  3. High Energy Density Resin Systems for Additive Manufacturing of Explosive and Propellant Formulations

    SBC: PHYSICAL SCIENCES INC.            Topic: A21CT004

    The Army needs to develop energetic formulations suitable for additive manufacturing. One approach is to tailor energetic prepolymers and plasticizers to enable rapid curing. This would lower manufacturing costs, increase manufacturing throughput as well as increase the range and lethality of the system it is incorporated into. To date, the problem with energetic polymers and additive manufacturin ...

    STTR Phase I 2022 Department of DefenseArmy
  4. Development of Energetic Polymer Systems for Additive Manufacturing Energetic Formulations

    SBC: NALAS ENGINEERING SERVICES INC            Topic: A21CT004

    The US Army is investing in the development of energetic materials for use in additive manufacturing (AM) for explosive and propellant applications in an ongoing effort to achieve extended range and lethality overmatch.  Currently, all commercially available monomers, polymers or resin systems for AM are non-energetic.  To use these in 3D printing applications for propellants and/or explosives, ...

    STTR Phase I 2022 Department of DefenseArmy
  5. Broadband Optical Attenuator via Amplified Free Carrier Absorption

    SBC: PHYSICAL SCIENCES INC.            Topic: A21CT007

    The blinding or disabling of focal plane arrays (FPAs) can greatly impair situational awareness for the warfighter. Some passive technologies, such as filters, can selectively remove certain wavelengths if those wavelengths are known to be threats, but there exists a need for a technology that can 1) attenuate 99.9% of high intensity light in a localized region within the viewing area, 2) perform ...

    STTR Phase I 2022 Department of DefenseArmy
  6. Dilute Waveguide SOAs for high power and low noise applications

    SBC: ULTRA-LOW LOSS TECHNOLOGIES LLC            Topic: A21CT008

    Low noise optical amplifiers with watt-class optical power are a critical component for a variety of applications such as free space optical communications, light detection and ranging (LIDAR), high-performance microwave photonics (MWP) and so on. Traditionally, such applications have utilized erbium doped fiber amplifiers (EDFAs). Although capable of generating high powers and the required low-no ...

    STTR Phase I 2022 Department of DefenseArmy
  7. Counter-UAS Novel Testbed and Enhanced Radar (CoUNTER)

    SBC: PSEUDOLITHIC, INC.            Topic: A21CT009

    PseudolithIC Inc. and Michigan State University (MSU) are pleased to offer the CoUNTER proposal to address the threat posed by the proliferation of Unmanned Aerial Systems (UASs) with a codesigned hardware-signal processing approach. This proposal combines the benefits of mm-Wave signals, advanced MIMO architectures and novel micro-Doppler signal processing to deliver superior active radar perform ...

    STTR Phase I 2022 Department of DefenseArmy
  8. Improved Technology to Treat Drug-Resistant Bacterial Infections

    SBC: TRITON SYSTEMS, INC.            Topic: A21CT010

    Bacterial infections are particularly significant for military personnel in situations where there may be a long delay between the injury and treatment at a hospital or clinic. The development of an effective, portable light-based system which can operate in both military hospitals and far-forward situations is proposed. Proof-of-principle will be demonstrated by constructing a bench top level, li ...

    STTR Phase I 2022 Department of DefenseArmy
  9. Radar for Accelerated Breaching of Concrete Structures (RABCS)

    SBC: PHYSICAL SCIENCES INC.            Topic: A21CT012

    The US Army and other DOD forces occasionally need to breach reinforced concrete structures. There are several existing methods to assess the structural properties and predict reinforcement but each of these methods has specific deficiencies (e.g. to loud, too large, too inconsistent). Ground penetrating radar is a promising technology for non-destructive concrete substructure characterization but ...

    STTR Phase I 2022 Department of DefenseArmy
  10. Multi-Mode Concrete Scanner

    SBC: Earth Science System LLC            Topic: A21CT012

    A lightweight concrete scanner is desired that measures thickness, concrete strength, and rebar location so that the fortitude of concrete structures can be assessed. Because each of these attributes is best measured with a different type of sensor, a multi-mode concrete scanner is proposed that combines ground penetrating radar (GPR) and elastic wave measurements (such as impact-echo and surface ...

    STTR Phase I 2022 Department of DefenseArmy
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