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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. Predictive High-Fidelity Modeling Capability for High-Brightness Photoinjectors

    SBC: Gnosys Systems Inc.            Topic: 06a

    "High brightness and high average power Free Electron Lasers known as x-ray FELs, developed by DOE, are intently desired by the scientific community for their unique capabilities and for the opportunities they enable in the medical and biological sciences, such as imaging biological molecules or chemical reactions. Beam optics codes (particularly Particle-in-Cell codes) couple non-uniformity and s ...

    STTR Phase II 2015 Department of Energy
  2. Methodology for Attrition Evaluation of Oxygen Carriers in Chemical Looping Systems

    SBC: ENVERGEX LLC            Topic: 11d

    Existing methodologies for attrition evaluation of oxygen carriers in Chemical Looping Combustion systems do not adequately reflect the unique process conditions to which oxygen carriers are exposed, specifically high temperatures and cyclically reacting oxidizing and reducing atmospheres. This proposed Small Business Innovation Research (SBIR/STTR) project targets the development of novel equipme ...

    STTR Phase II 2015 Department of Energy
  3. Ionomer Dispersion Impact on Advanced Fuel Cell and Electrolyzer Performance and Durability

    SBC: GINER INC            Topic: 09b

    The non-aqueous ionomer dispersion technology invented at Los Alamos National Laboratory (LANL) has demonstrated great potential to significantly improve the lifetime of proton exchange membrane (PEM) fuel cells and electrolyzers. However, further validation and improvements are needed to make this technology commercially viable. The overall objective of this project is to further devel ...

    STTR Phase II 2015 Department of Energy
  4. A Diagnostic for Simultaneous Liquid and Vapor Distribution in Sprays Using Filtered Rayleigh and Mie Scattering

    SBC: METROLASER, INCORPORATED            Topic: 07d

    New automotive engine technologies, such as direct injection with stratified charge combustion, are being explored under programs of the DOE and others that offer significant increases in efficiency and reductions in emissions. Research tools are needed to help determine how best to adequately control the combustion process throughout the engine operating envelope, to optimize combustion efficienc ...

    STTR Phase II 2015 Department of Energy
  5. Development of Nuclear Quality Components Using Metal Additive Manufacturing

    SBC: RADIABEAM SYSTEMS, LLC            Topic: 19f

    A major problem with nuclear fission reactors is the welding of components of dissimilar metals, where the filler is usually of an additional metal alloy that is not necessarily the same as the two parts to be joined. Welding of metals will often have a heat affected zone (HAZ) and a thermo- mechanically affected zone (TMAZ), which need to be post-weld heat treated to minimize precipitation or seg ...

    STTR Phase II 2015 Department of Energy
  6. Developing Robust all-Solid-State Li Battery with a Ceramic Electrolyte and Interfacially Engineered Lithium Metal Anode

    SBC: AMERICAN LITHIUM ENERGY CORP.            Topic: 17a

    The objective of the proposed project is to develop the next generation of the low cost, high energy and high power solid state rechargeable lithium battery using a low cost enabling solid state electrolyte and protected lithium metal electrode developed by University of California in San Diego for use in the plug-in hybrid vehicle and electric vehicle. The advantages of the proposed solid state ...

    STTR Phase I 2015 Department of Energy
  7. Method for Separation of Coal Conversion Products from Sorbents/Oxygen Carriers

    SBC: ENVERGEX LLC            Topic: 20e

    This SBIR/STTR project targets the development of a technology for segregating fuel-based contaminants char and ash) from oxygen carrier material in the context of chemical looping combustion application. In chemical looping, the well-mixed solids that flow from the fuel reactor consisting of char, ash, and oxygen carrier particles cannot be completely separated into their constituents before they ...

    STTR Phase I 2015 Department of Energy
  8. High Duty Cycle Inverse Free Electron Laser

    SBC: RADIABEAM TECHNOLOGIES, LLC            Topic: 26a

    The Inverse Free Electron Laser IFEL) is a laser accelerator, where an electron and laser beam interact inside a strongly tapered magnetic undulator. IFEL enables strong energy exchange between electron and laser beams over extended lengths ~ 1 m), which makes the IFEL an ideal technology for GeV-class electron beam sources, and drivers of compact soft X-ray free electron lasers, and gamma-ray Com ...

    STTR Phase I 2015 Department of Energy
  9. Algal Bioflocculation for Solid-Liquid Separation

    SBC: MICROBIO ENGINEERING INC            Topic: 12c

    Algae production in conjunction with wastewater treatment is a low-cost path to algae biofuels. Whole biomass is available for conversion to biofuel because algae biomass co-product sales are not required for good economics. Instead, added revenue is derived from wastewater treatment. Existing wastewater treatment pond facilities covering hundreds of acres are the only producers of microalgae ap ...

    STTR Phase I 2015 Department of Energy
  10. GRAVITY GRADIOMETER-BASED NON-INVASIVE REACTOR SYSTEM for COOLANT INVENTORY MONITORING

    SBC: INFORMATION SYSTEMS LABORATORIES INC            Topic: 32k

    The reactor vessel coolant level is currently measured primarily by differential pressure DP) and by heated junction thermocouple HTJC) probes. The DP gauge measures only collapsed water level and not two-phase level, while the HJTC probe indicates whether or not the water level has reached the elevation of a specific probe. The HJTC probes are typically located at discrete intervals so the measur ...

    STTR Phase I 2015 Department of Energy
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