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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. Additive Manufacturing of Multifunctional Nanocomposites

    SBC: Sciperio, Inc.            Topic: A13AT010

    Sciperio with team members Georgia Institute of Technology and Centecorp have teamed up to develop an Additive Manufacturing Composite using nano and micro fillers. The team will develop multi-scale models that are supported by experimental characterization for advanced 3D Printable materials. Inelastic response of high strength hierarchical structures composed of engineered materials and specif ...

    STTR Phase I 2013 Department of DefenseArmy
  2. Additive Manufacturing Sensor Fusion Technologies for Process Monitoring and Control.

    SBC: SENVOL LLC            Topic: DLA18A001

    The Department of Defense (DoD) has a demand for out-of-production parts to maintain mission readiness of various weapons platforms. Additive manufacturing (AM) is an exciting and promising manufacturing technique that can make out-of-production parts and holds the potential to solve supply chain issues, such as high costs (i.e. for low-volume parts) and sole sourcing risks. The ability of AM to s ...

    STTR Phase I 2018 Department of DefenseDefense Logistics Agency
  3. Additive Manufacturing Sensor Fusion Technologies for Process Monitoring and Control.

    SBC: ARCTOS Technology Solutions, LLC            Topic: DLA18A001

    Universal Technology Corporation (UTC) has teamed with the University of Dayton Research Institute (UDRI), Stratonics, and Macy Consulting to demonstrate not only the transitionability into commercial systems, but also to develop the data analytics and monitoring and control requirements to extract the full value fromseveral sensors, including the Stratonics ThermaViz, acoustic and profilometry se ...

    STTR Phase I 2018 Department of DefenseDefense Logistics Agency
  4. An Automated, High Throughput, Filter-Free Pathogen Preconcentrator

    SBC: CFD RESEARCH CORPORATION            Topic: A10AT016

    Accurate real-time waterborne pathogen detection is of paramount importance to security of U.S. military forces and installations. Fieldable high-throughput pathogen concentration is a critical analytical need for enhanced detection performance. Existing concentration methods are time-consuming, bulky, labor-intensive, power- and reagent-hungry, and consequently ill-suited for battlefield deployme ...

    STTR Phase I 2010 Department of DefenseArmy
  5. An Ultra-High Carbon Steel Bonded Tungsten Carbide Material for Armor Piercing Rounds

    SBC: ADVANCED MATERIALS & DEVICES            Topic: OSD12T07

    This Small Business Technology Transfer (STTR) Phase I effort will demonstrate the feasibility of an innovative tungsten carbide (WC) metal matrix composite for use as a non-carcinogenic penetrator for armor piercing (AP) munitions for small arms. The objectives of this effort are to: 1) Mechanically compact the WC and binder powders, 2) Sinter the compacted powders into a fully dense composite, 3 ...

    STTR Phase I 2013 Department of DefenseArmy
  6. A universal framework for non-deteriorating time-domain numerical algorithms in Maxwell's electrodynamics

    SBC: COMPUTATIONAL SCIENCES LLC            Topic: A13AT008

    The project will remove a key difficulty that currently hampers many existing methods for computing unsteady electromagnetic waves on unbounded regions. Numerical accuracy and/or stability may deteriorate over long times due to the treatment of artificial outer boundaries. We propose to develop a universal algorithm and software that will correct this problem by employing the Huygens'principl ...

    STTR Phase I 2013 Department of DefenseArmy
  7. Automated Blood Component Separator

    SBC: Antek            Topic: A10AT026

    The objective of the proposed research is to develop a portable, passive system for rapid and efficient blood component separation. While a number of macro-scale devices are routinely employed in laboratory settings to separate, for example, red blood cells (RBCs) from platelet-rich plasma (PRP), and an emerging class of microfabricated devices are slowly being developed to address various low-th ...

    STTR Phase I 2010 Department of DefenseArmy
  8. Bioaerosol Detector Wide Area Network

    SBC: Arete Associates            Topic: A17AT020

    Historically, the monitoring and detection of biological threats has been carried out via the deployment of high sensitivity / high complexity monitoring nodes to insure high probability of detection and low false alarm rate. Unfortunately, this detection strategy has inherent limits with respect to coverage and response due to its high deployment/support costs, mandating a new approach to environ ...

    STTR Phase I 2017 Department of DefenseArmy
  9. Biofidelic Rat Testing Device (RTD) to Measure Blast Exposure and Loadings for TBI

    SBC: CFD RESEARCH CORPORATION            Topic: A17AT022

    The overall objective of this project (Phase I, II, and III) is to develop, fabricate, and test a novel biofidelic rat surrogate for the validation of primary blast loading conditions for mild traumatic brain injury (mTBI). The CFDRC/NJIT team will use extensive knowledge of blast loading characteristics and TBI studies coupled with past/ongoing efforts designing and testing a rat surrogate. In P ...

    STTR Phase I 2017 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 I 2019 Department of DefenseArmy
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