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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. Innovative Processing Techniques for Additive Manufacture of 7000 Series Aluminum Alloy Components

    SBC: SENSIGMA LLC            Topic: N18AT005

    Naval aircraft components are routinely made of 7000 series aluminum alloys due to their strength, weight and fatigue properties. Present Additive Manufacturing (AM) processes fall short of producing 7000 series Al alloys successfully due to lack of porosity, and thermal and composition control. In-situ methods implemented to date largely only yield information about the component surface and othe ...

    STTR Phase II 2020 Department of DefenseNavy
  2. Next-Generation, Power-Electronics Materials for Naval Aviation Applications

    SBC: KYMA TECHNOLOGIES, INC.            Topic: N18AT004

    This program will further the development of large area freestanding GaN substrates (150mm or greater) and develop a bulk GaN substrate characterization protocol to help reduce the variability in GaN homoepitaxial growth results which have prevented low cost, high voltage, vertical GaN power devices from being realized in an economically viable way.

    STTR Phase II 2020 Department of DefenseNavy
  3. Optimization of Fatigue Test Signal Compression Using The Wavelet Transform

    SBC: ATA ENGINEERING, INC.            Topic: N18BT029

    ATA Engineering has developed a wavelet-based damage squeezing methodology for generating optimally compressed fatigue test signals that produce an equivalent amount of fatigue damage in a predictably reduced amount of time compared to the baseline (uncompressed) signals. Fatigue-critical signal characteristics (e.g., magnitude, phase, frequency, and sequencing relationships) are identified in the ...

    STTR Phase II 2020 Department of DefenseNavy
  4. Innovations in Designing Damage Tolerant Rotorcraft Components by Interface Tailoring

    SBC: HARP ENGINEERING LLC            Topic: N19AT003

    The performance of a composite material is heavily influenced by the strength and toughness of the interlaminar region, which is the resin rich area between the plies of a fiber reinforced composite.  The interlaminar region generally provides a direct path for crack propagation since no continuous reinforcement is present and is often the cause of failure in materials subjected to cyclic loadin ...

    STTR Phase II 2020 Department of DefenseNavy
  5. Conjugate heat transfer for LES of gas turbine engines

    SBC: CASCADE TECHNOLOGIES INC            Topic: N19BT027

    Current design tools for gas turbine engines invoke a variety of simplifying assumptions to estimate heat transfer to solid/metal engine components (e.g., isothermal boundary conditions). These approximations are often not valid, result in inaccurate predictions of heat transfer, and ultimately compromise the thermal integrity of propulsion and power systems. Wall-modeled large eddy simulation (WM ...

    STTR Phase II 2020 Department of DefenseNavy
  6. Carbon Nanotube Based Monolithic Millimeter-wave Integrated Circuits

    SBC: Carbonics, Inc.            Topic: A18BT004

    Carbonics, Inc. is the only small business entity that is razor-focused on developing and commercializing wafers-scale carbon nanotube (CNT) based RF products for mmWave communications that can outperform incumbent semiconductor high frequency technologies (GaAs & RF-CMOS). Our STTR Phase I accomplishments exceeded all expectations, setting a new world record for CNT FET RF technology (fT > 100 GH ...

    STTR Phase II 2020 Department of DefenseArmy
  7. Quantum Utilities for Integrated Characterization

    SBC: Quantum Benchmark Inc            Topic: A18BT011

    Quantum information processing has the potential to revolutionize the U.S. economy, with a potential market value of hundreds of billions of dollars for quantum-information based technologies in a wide variety of sectors, including pharmaceuticals, energy, transportation, and cyber security. A major obstacle to realizing this potential is overcoming the error-prone nature of quantum information, w ...

    STTR Phase II 2020 Department of DefenseArmy
  8. Circuit Integration for Robust Quantum Information Technology Scalability (CIRQuITS)

    SBC: VECTOR ATOMIC INC            Topic: A18BT014

    Vector Atomic and Stanford University will develop precision, ultra-low noise laser control electronics with low cost, size, weight, and power (C-SWaP). The electronics will be designed to broadly support the various laser types of used for quantum technology, which span 369-1550 nm. The C-SWaP and system architecture will support scaling of quantum systems to higher laser counts. The design will ...

    STTR Phase II 2020 Department of DefenseArmy
  9. Artificial Intelligence/Machine Learning to Improve Maneuver of Robotic/Autonomous Systems

    SBC: AUTONOMOUS SOLUTIONS INC            Topic: A17AT019

    Autonomous vehicles are being used for many applications varying from small indoor robots, to large-scale mining trucks, and military vehicles operating in fast-changing environments. Global position systems (GPS) have traditionally been used for vehicle positioning. GPS works well in open environments, but suffers from significant degradation due to terrain, certain operating conditions, and even ...

    STTR Phase II 2020 Department of DefenseArmy
  10. BioSENSE, for identification of allosteric transcription factor biosensors

    SBC: SYNVITROBIO, INC.            Topic: A18BT016

    There is a need to develop affordable and specific biosensors to defend against current and future biological threats. Biological methods of detection have been evolved by nature to detect molecules at the micro-scale with flexible specificity and with downstream effectors. Advances in cell-free technology allow for deployment of biosensors on pH-strip-type paper, an affordable, robust, disposable ...

    STTR Phase II 2020 Department of DefenseArmy
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