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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.

Displaying 21 - 30 of 9486 results
  1. Technology for ultrafast lasers at 2-µm wavelength

    SBC: Kapteyn-Murnane Laboratories, Inc.            Topic: C5635d

    This project addresses the needs outlined in Section C56-35 of the Topics for FY 2023 Phase I, Release 2 DoE SBIR/STTR and more specifically the lasers of Type III and IV listed in the table shown in this section. Over the past decade, a growing number of applications have emerged that require stable, high energy and high repetition rate 2 µm wavelength lasers either for direct use or to drive se ...

    STTR Phase I 2023 Department of Energy
  2. Industrialized Gravity Anchors for Floating Photovoltaics

    SBC: RCAM TECHNOLOGIES INC            Topic: C5615f

    Floating solar photovoltaics is poised for rapid growth in the United States and globally because it offers new cost-competitive solar deployment options and unique advantages, including avoiding land-use conflicts, higher panel efficiency due to evaporative cooling, and improved water quality and conservation. However, modest cost reductions are still required for floating solar to compete with g ...

    STTR Phase I 2023 Department of Energy
  3. Next generation high-temperature superconducting CORC® conductors for high-field accelerator magnets

    SBC: ADVANCED CONDUCTOR TECHNOLOGIES LLC            Topic: C5636a

    The next-generation low-inductance accelerator magnets generating magnetic fields exceeding 20 T and magnets for muon colliders that operate at 20 K require highly flexible, high current, high-temperature superconducting (HTS) cables. Such cables are currently not available. Advanced Conductor Technologies and Lawrence Berkeley National Laboratory propose to develop the next generation of high-cur ...

    SBIR Phase I 2023 Department of Energy
  4. In-Line Monitoring System for Membrane and Electrode Assembly Manufacturing

    SBC: SKYHAVEN SYSTEMS, LLC            Topic: C5618h

    Projections in the near term call for 20,000 fuel cell stacks/year and 1 GW/year for proton exchange membrane electrolyzers. To meet these manufacturing quantities as well as to lower costs, quality control methods are needed associated with the high-volume manufacturing of membrane and electrode assemblies (MEAs) used in fuel cells and electrolyzers. Manufacturing variations can include inadequat ...

    SBIR Phase I 2023 Department of Energy
  5. Efficient Zero-Carbon Ammonia Production

    SBC: SKYHAVEN SYSTEMS, LLC            Topic: C5619c

    The Department of Energy’s Industrial Decarbonation Roadmap aims to decarbonize energyintensive sectors reaching net zero carbon emissions nationwide by 2050. The chemical industry sector accounts for 20% of CO2 emissions where new innovations in chemical manufacturing can help mitigate CO2 emissions. One chemical whose manufacturing contributes a substantial emission of CO2 at 1.8% of global CO ...

    SBIR Phase I 2023 Department of Energy
  6. Development of long-length CORC® cables and cable-in-conduit-conductors for compact fusion reactors

    SBC: ADVANCED CONDUCTOR TECHNOLOGIES LLC            Topic: C5630a

    The next-generation low-inductance magnets generating magnetic fields exceeding 14-20 T at 20 K for fusion applications require flexible, high-current high temperature superconducting (HTS) cables that can be manufactured in long lengths. Such cables are currently not available. Advanced Conductor Technologies proposes to develop high-current (20-80 kA) Conductor on Round Core (CORC®) cables woun ...

    SBIR Phase I 2023 Department of Energy
  7. Ferromagnetic Analysis for Lithium-Ion Battery Cathode QA/QC

    SBC: TDA RESEARCH, INC.            Topic: C5620b

    Manufacturing lithium-ion batteries (LiBs) involves a series of complex production steps, and defects introduced at any step can lead to batteries which must be discarded. The primary QA/QC testing occurs at the end of production, on assembled and charged batteries; this is costly, time consuming, wasteful and costly. Relying on end of line electrical QA/QC testing also makes determining failure m ...

    SBIR Phase I 2023 Department of Energy
  8. Low-Cost, Environmentally Friendly, Concrete Torpedo Anchors for Floating Wind

    SBC: RCAM TECHNOLOGIES INC            Topic: C5617a

    Floating offshore wind power is poised for rapid growth in the US, where approximately 2/3 of the US offshore wind energy potential (2.8 out of 4.3 TW) exists over waters deep enough to require the use of floating platforms. However, cost remains an obstacle to extensive, rapid deployment of floating offshore wind. Anchoring floating wind installations to the sea floor is presently up to 15% of to ...

    SBIR Phase I 2023 Department of Energy
  9. C56-33b: Fast Accurate Simulation of CSR and Space-Charge for Intense Beams

    SBC: RADIASOFT LLC            Topic: C5633b

    STATEMENT OF THE PROBLEM Though decades of computational and experimental studies have advanced our understanding of coherent synchrotron radiation, next generation accelerators will produce beams that no longer conform to our existing models. Moreover, high fidelity simulations of coherent synchrotron radiation and space-charge that utilize numerical solutions to the exact point particle potentia ...

    SBIR Phase I 2023 Department of Energy
  10. Durable Catalysts and Membranes for AEM Electrolyzer Operated with Impure Water

    SBC: TDA RESEARCH, INC.            Topic: C5618l

    Renewable energy has the potential to supply energy worldwide, but because of its variable power output it needs to be coupled with energy storage. Electrochemical electrolysis can split water into hydrogen and oxygen, which can be stored and re-converted into electricity later. However, this process requires ultrapure water, which is unavailable in many areas in the world, especially in island an ...

    SBIR Phase I 2023 Department of Energy
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