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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. Portable System with Li Foil MWPC Neutron Detectors

    SBC: RADIATION DETECTION TECHNOLOGIES, INC.            Topic: DTRA14B005

    At the completion of the research and development effort a Li-foil multi-wire proportional counter (MWPC) neutron detector with more than 625-cm2 of active area will be included in a portable radiation detection system. The system is expected to outperform the standards set by the ANSI N42.53 standards, and gamma-ray rejection ratio (GRR) of 1.0x10-8 or better. A gamma-ray spectrometer for isotope ...

    STTR Phase II 2017 Department of DefenseDefense Threat Reduction Agency
  2. Low Cost Alloys for Magnetocaloric Refrigeration

    SBC: GENERAL ENGINEERING & RESEARCH, L.L.C.            Topic: 12b

    Replacement of petroleum based vehicles with fuel cell electric vehicles operating on hydrogen produced from domestically available resources would dramatically decrease emissions of greenhouse gases and other pollutants as well as reduce dependence on oil from politically volatile regions of the world. One major inhibitor to a hydrogen society is the lack of infrastructure, which requires hydroge ...

    STTR Phase II 2017 Department of Energy
  3. Automatic Calibration of High-Performance Metrological Instrumentation

    SBC: Abeam Technologies Inc.            Topic: 04c

    In this project, aBeam will further develop and commercialize the metrology application developed by scientists at Lawrence Berkeley National Laboratory and supported by their patent. The product will improve the capabilities of high-performance metrological instrumentation. Our technology is the enabler of well characterized quantitative metrology at the nanoscale that does not exist thus far.

    STTR Phase II 2017 Department of Energy
  4. Transition Metal Blocking Microporous Polymer Separators for Energy-Dense and Long-Lived Li-ion Batteries

    SBC: Sepion Technologies            Topic: 12a

    The advanced energy economy will be a dominant market force in the 21st century, one driven by US demand but asymmetrically low domestic supply without immediate action. This project focuses on the development and US manufacturing of a new battery membrane that enables low-cost and long-lived Li-ion batteries.

    STTR Phase II 2017 Department of Energy
  5. A Comprehensive Web Infrastructure for Standardizing, Storing, and Launching Density Functional Calculations of Materials and Chemical Compounds

    SBC: Citrine Informatics, Inc.            Topic: 9a

    Density functional theory is used by many researchers funded by the Department of Energy as a method for predicting the behavior of chemicals and materials used in energy applications. However, results of these calculations are often not standardized and, even when they are, expert-level understand of the methods is needed in order to properly perform a simulation. The energy research community a ...

    STTR Phase II 2016 Department of Energy
  6. 26(a): High Duty Cycle Inverse Free Electron Laser

    SBC: RADIABEAM TECHNOLOGIES, LLC            Topic: 26a

    Laser based advanced accelerators can achieve very high accelerating gradients, but their duty cycle is limited by the laser power availability and media recovery time. Inverse Free Electron Laser (IFEL) is a vacuum farfield laser accelerator scheme which does not rely on a medium (plasma) or a structure (metal or electric) and therefore is potentially capable of accelerating charged particles ver ...

    STTR Phase II 2016 Department of Energy
  7. Algal Bioflocculation for SolidLiquid Separation

    SBC: MICROBIO ENGINEERING INC            Topic: 12c

    A key requirement for microalgae biofuels production is a very low cost harvesting technology. Commercially available solidliquid separation technologies applicable to microalgae, such as chemical coagulation, membrane separations and centrifugation, are too costly for biofuels production or other lowcost microalgae processes, such as wastewater treatment. A low cost harvesting process is bio floc ...

    STTR Phase II 2016 Department of Energy
  8. Nano-Patterned Cathode Surfaces for High Efficiency Photoinjectors

    SBC: RADIABEAM TECHNOLOGIES, LLC            Topic: 05a

    Metal photoinjector cathode development has shown recent promise with nano-patterning technology. However, in order to be competitive with semi-conductor cathodes, a further enhancement in efficiency is needed. TECHNICAL APPROACH Specific nano-patterning of sub-wavelength features to produce antennae provides coupling of incoming laser light with the surface of the metal cathode. Bowtie nano-anten ...

    STTR Phase II 2016 Department of Energy
  9. Single-shot Picosecond Temporal Resolution Transmission Electron Microscopy

    SBC: RADIABEAM TECHNOLOGIES, LLC            Topic: 07a

    Transmission electron microscopy (TEM) is one of the primary tools for biological and materials characterization and has many important research applications. There is an overarching need to improve the temporal resolution of TEMs. State-­‐of-­‐the-­‐art single shot TEM only achieve 10 nanoseconds temporal resolution. Technical Approach UCLA and RadiaBeam Tec ...

    STTR Phase II 2016 Department of Energy
  10. Retrofittable and Transparent Super-Insulator for Single-Pane Windows

    SBC: NANOSD, INC.            Topic: DEFOA0001429

    NanoSD, Inc. with its partners will develop a transparent, nanostructured thermally insulating film that can be applied to existing single-pane windows to reduce heat loss. To produce the nanostructured film, the team will create hollow ceramic or polymer nanobubbles and consolidate them into a dense lattice structure using heat and compression. Because it is mostly air, the resulting nanobubble s ...

    STTR Phase II 2016 Department of EnergyARPA-E
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