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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. Functional Engineering of a Photosynthetic Desalination Pump Circuit

    SBC: Phytodetectors, Inc.            Topic: G

    Phytodetectors will design and engineer a synthetic biological pump circuit to increase the volume of water produced via photosynthetic desalination. This project builds off previous technology designed by Phytodetectors: a mangrove-inspired ultra-filter that allows plants to purify salt water as well as secrete water with properties comparable to bottled water. The partnership seeks to demonstrat ...

    STTR Phase I 2020 Department of EnergyARPA-E
  2. A Novel Radium-Selective Separation Technique to Improve the Production of 225Ac for Cancer Immunotherapy

    SBC: RADTRAN LLC            Topic: 35b

    225Ac is valuable isotope for radioimmunotherapy treatment of cancers by means of targeted alpha therapy (TAT) However, the production capacity for it is currently insufficient to support the clinical- and commercial-scale demand for TAT drugs This proposal describes a process for facilitating production of 225Ac by providing source material in the form of the radium isotopes (primarily 228Ra) tha ...

    STTR Phase I 2020 Department of Energy
  3. High Performance Superconducting Undulator Development

    SBC: Cryomagnetics, Inc.            Topic: 25b

    The demand for increased brightness of synchrotron light sources is driven by advancement of novel experimental techniques to study nanomaterials, micro- and nanocrystals, and interactions of atomic and molecular structures Strong demand has pushed technologies of low emittance electron sources, novel concepts in electron storage rings, free electron lasers (FELs) and undulators – the primary so ...

    STTR Phase I 2020 Department of Energy
  4. High Performance Glass Scintillators for Nuclear Physics Experiments

    SBC: Scintilex, LLC            Topic: 34d

    Scintillator materials are used to detect, analyze, and track photons and neutral particles The large volume electromagnetic calorimeters for the Electron-Ion Collider (EIC) and those in all four halls at the Jefferson Lab are nuclear physics detectors requiring scintillator materials Crystals such as lead tungstate have been used in calorimeters, but their production is slow and expensive In comp ...

    STTR Phase I 2020 Department of Energy
  5. Highly Transparent Aerogel with Refractive Index < 1.01 for High Energy Particle Detection

    SBC: Scintilex, LLC            Topic: 31d

    Aerogel of high optical quality is needed for hadron identification in nuclear physics experiments in the momentum range 3 - 8 GeV/c, where other techniques are not effective. The large-volume aerogel Cherenkov detectors for the Electron-Ion Collider (EIC) and those in three halls at the Jefferson Lab require high-quality, hydrophobic aerogel material. This Phase I/II project addresses this need w ...

    STTR Phase II 2020 Department of Energy
  6. Value of Information and Data Management Platform Promoting Modern Data Analysis Utilization

    SBC: INFISYS, INC.            Topic: 13b

    The immense growth in weather and river sensor data availability along with increases in computational power and algorithmic sophistication have enabled the widespread application of physical, machine learning, and artificial intelligence algorithms to river forecasting. The forecasts produced by widely varying model approaches are inherently limited in different ways, such as by the number and qu ...

    STTR Phase I 2020 Department of Energy
  7. Novel High Peak- and Average-power Ultrafast Lasers Using Parametric Beam Combination of Fiber Lasers

    SBC: Kapteyn-Murnane Laboratories, Inc.            Topic: 32e

    This project seeks to demonstrate a new approach for implementing tunable mid-infrared (IR) ultrafast lasers at high peak-and average powers, to specifically address the need outlined in Topic 32: Laser Technology R&D for Accelerators, listed under “Type III.” This category seeks to develop ultrafast lasers in the 2-5 micron mid-infrared (IR) spectral range with energies in the mJ- J range, re ...

    STTR Phase I 2020 Department of Energy
  8. Direct Recycling of Nickel-manganese-cobalt Cathode Materials from Lithium Batteries Using an All-in-one Rotary Kiln Reactor

    SBC: HAZEN RESEARCH, INC.            Topic: 12a

    The Department of Energy (DoE) has identified the important need to recycle, recover, and reuse the critical materials involved in lithium battery (LiB) technology. It is reported that in 2018 the world consumed over 50,000 tons of various lithium and transition metal salts to meet the production of LiBs needed for the worldwide energy storage needs. The market forecast for LiBs suggest that the d ...

    STTR Phase I 2020 Department of Energy
  9. Conductive Carbons by Design: Electrochemically Tailored Carbon Nanotube Conductive Additives for High Rate Battery Electrodes

    SBC: SKYNANO LLC            Topic: 12a

    With the electrification of transportation, the increased number of portable and connected devices, and the modernization of our grid to include energy storage coupled with renewable energy sources, increased demands of power, energy, lifetime, cost, and safety performance metrics for electrochemical energy storage are at an all-time high. Specifically of interest to the US DOE Vehicle Technologie ...

    STTR Phase I 2020 Department of Energy
  10. Recovery of Glass Fiber Reinforcement from Retired Wind Turbine Blades for Recycled Composite Materials

    SBC: Carbon Rivers LLC            Topic: 15c

    By 2050 43,400,000 metric tons of cumulative wind turbine blade waste is expected to exist and continue growing at 2,000,000 metric tons/year globally. Even in the near term, wind turbine blade waste generation is expected to approach 1,000,000 metric tons/year by 2029. In short, the amount of wind turbine blade waste needing disposal is growing rapidly while the status quo option of landfilling, ...

    STTR Phase II 2020 Department of Energy
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