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The Award database is continually updated throughout the year. As a result, data for FY21 is not expected to be complete until September, 2022.

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.

  1. A Cross-Disciplinary Environment for Computationally and Data Intensive Applications in the Geosciences

    SBC: 3dgeo Development Inc.            Topic: 43

    The exploration and production (E&P) of oil and natural gas is one of the most computationally demanding endeavors, generating terabytes of data. To optimize the management of a producing oil field or to find new reserves, the E&P data must be readily available to a multidisciplinary asset management team. The data must be easy to access, and it must be effectively managed by a team of geologist ...

    STTR Phase I 2006 Department of Energy
  2. Adaptive camera to display mappings using computer vision

    SBC: POLAR RAIN, INC.            Topic: N/A

    The video surveillance industry is experiencing dramatic change with the move from analog to digital video. Command centers need to have coordinated viewing of multiple camera feeds at one time, and the ability to switch automatically between feeds and display relevant patterns. Conventional security control rooms include a bank of monitors connected through a switch to an array of security camera ...

    STTR Phase I 2006 Department of Homeland Security
  3. Advanced Multifilament Wire with Optimized Bi2212 Properties for HEP High Field Magnets

    SBC: Supramagnetics, Inc.            Topic: 40

    Future progress in understanding particle physics will require higher energy collisions, which in turn will require more energy and luminosity. More luminosity means larger apertures and bigger magnets, which in turn will require higher-performance lower-cost superconductors. This project will develop and demonstrate a low cost powder-in-tube (PIT) multifilament Bi2212 process with improved fila ...

    STTR Phase I 2006 Department of Energy
  4. A High Temperature (400 to 650oC) Secondary Storage Battery Based on Liquid Sodium and Potassium Anodes

    SBC: Materials and Systems Research, Inc.            Topic: 15

    This project will develop technolgy for integrating a high-temperature (400 to 700ºC), high-efficiency (greater than 90%) secondary battery with a 3 to 10 kW solid oxide fuel cell (SOFC) system. The battery will be based on an alkali-metal-ion-conducting, highly refractory, beta alumina solid electrolyte (BASE) and a non corrosive metal salt. The battery is expected not only to meet or exceed w ...

    STTR Phase I 2006 Department of Energy
  5. A new medium field superconducting magnet for the EIC

    SBC: PARTICLE BEAM LASERS, INC            Topic: 37g

    Most superconducting accelerator magnets are presently based on a conventional “cosine theta” design. Typically, the magnet length vastly exceeds the aperture, and the loss in effective length from the ends (about a coil diameter in typical dipoles) is relatively small. However, for relatively short magnets such as those envisioned for the Interaction Region (IR) of the Electron Ion Collider ( ...

    STTR Phase I 2021 Department of Energy
  6. A Scalable Platform for Real-Time Microscopy Image Analysis Using Artificial Intelligence and Machine Learning

    SBC: THEIA SCIENTIFIC LLC            Topic: 39k

    Materials sample characterization by electron microscopy with multiple modes of detection provides more robust and information-rich data, but its adoption remains limited because of the dramatic increase in off- the-microscope data analysis work. Essentially, the necessary, but labor-intensive post-acquisition data analysis for multi-modal microscopy has kept it a low throughput technique that is ...

    STTR Phase I 2021 Department of Energy
  7. Computer Optimized Design of 3D Charged Particle Devices

    SBC: Calabazas Creek Research, Inc.            Topic: 38

    The design of complex three-dimensional (3D) charged particle devices, used in high energy physics research, is extremely difficult. It has been recognized that computer optimization can provide a critical tool for designing the next generation of advanced, higher performance devices. Therefore, this project will implement computer-optimized design technology in advanced 3D simulation tools for ...

    STTR Phase I 2006 Department of Energy
  8. Cryogenic optical and spin scanning probe station for high-throughput characterization of solid-state quantum defects

    SBC: Advanced Research Systems, Inc.            Topic: 16a

    Solid-state quantum defects play a central role in quantum information science and technology as single- photon sources, optically accessible quantum memories, quantum sensors, and quantum-state transducers. However, discovery, screening, and optimization of quantum defects and emitters has remained challenging because of a lack of an integrated instrument for rapid quantum defect characterization ...

    STTR Phase I 2021 Department of Energy
  9. Development of a direct fuel cell for the perhydrodibenzyltoluene/dibenzyltoluene fuel pair

    SBC: Energy 18H            Topic: 15e

    In this work we address the problem that there are currently no optimized membrane electrode assemblies (MEAs) for direct fuel cells for truck applications that dehydrogenate perhydrobenzyltoluene (HDBT) to dibenzyltoluene (DBT) in a reversible fashion. Solving this problem will be a crucial for the development of a direct fuel for the perhydrodibenzyltoluene/dibenzyltoluene fuel pair. The accompl ...

    STTR Phase I 2021 Department of Energy
  10. Development of Ligand-Associated Solid-Liquid Extraction Media System for Separation of High Purity Individual Rare Earth Elements from Coal-based Resources

    SBC: GLYCOSURF, INC.            Topic: 24a

    Commercial sources of rare earth elements include bastnaesite (La, Ce)FCO3, monazite, (Ce, La, Y, Th)PO4, and xenotime, YPO4. However, the processing of these materials to extract and recover the rare earth elements is challenging and very process intensive. However, there are numerous domestic sources of rare earth elements, from waste materials such as coal fly ash, which could be extracted bene ...

    STTR Phase I 2021 Department of Energy
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