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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. Energy-Efficient Reconfigurable Universal Accelerator Interconnect

    SBC: Freedom Photonics LLC            Topic: 05a

    Recent advances in computing systems fundamentally changed and shaped almost every aspect of today’s society; from healthcare to finances and scientific discoveries, our everyday lives will depend more and more on computing and communication infrastructures and their capability to process and deliver critical information in real time. However, as high-performance-computing systems and datacenter ...

    STTR Phase II 2020 Department of Energy
  2. Comprehensive Time-Resolved Molecular Speciation Of Gaseous And Particulate Organic Constituents In The Atmosphere

    SBC: Aerosol Dynamics Inc.            Topic: 17d

    Organic chemicals comprise the dominant fraction of particulates found in atmospheric aerosols, and the largest proportions of these are secondary products formed in the atmosphere from oxidation of volatile organic compounds. Often these chemical transformations result from complex pathways involving species from different sources. To understand these processes, we need to be able to trace the ...

    STTR Phase II 2015 Department of Energy
  3. 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
  4. Interference Coatings for High Energy and Average Power Femtosecond-class Lasers in the 0.8-2um Wavelength Range

    SBC: XUV Lasers, Inc.            Topic: 28e

    The problem/situation that is being addressed concerns the development of ultrafast coatings that will meet the specifications of the DoE solicitation: “broad-bandwidth, laser damage threshold of 0.5 J/cm2 (1 ps), engineered using a process that is scalable to large areas.” Development of interference coatings (ICs) with superior laser damage is strongly motivated by the needs to scale near in ...

    STTR Phase II 2020 Department of Energy
  5. Key Components for the Implementation of High Repetition Rate Petawatt-class Lasers

    SBC: XUV Lasers, Inc.            Topic: 25c

    Ultra-high power, ultrashort pulse lasers systems are the central tool driving many of the recent advances in high energy density plasma science. They enable the generation of high energy density relativistic plasmas, bright x-ray and gamma–ray bursts, energetics particle beams and neutrons, and drive applications such as shadowgraphy of inertial confinement fusion targets and fast ignition. How ...

    STTR Phase II 2020 Department of Energy
  6. Low-Cost Hybrid Plasmonic and Photonic "Campanile" Near-Field Probes by Nanoimprint Lithography

    SBC: HighRI Optics, Inc.            Topic: 07a

    Near-field scanning optical microscopy (NSOM) is a powerful and unique approach to characterize the chemical, physical and potentially biochemical properties of materials with the nanometer scale resolution in real-time. A key element for NSOM systems that combine optical spectroscopy with scanning probe microscopy, is the actual probe itself. While many commercial vendors offer off-the-shelf meta ...

    STTR Phase II 2020 Department of Energy
  7. Infinitely Recyclable Bioplastics

    SBC: SusMer, Inc.            Topic: 08b

    Plastics are indispensable materials for modern life and the global economy, but current practices in the generation, use, and disposal of commodity plastics are largely unsustainable, causing severe worldwide plastics pollution and enormous energy and materials value loss in the economy. In particular, plastics are a material of choice in packaging applications, but they are currently designed fo ...

    STTR Phase II 2020 Department of Energy
  8. Photonic Memory Controller Module (P-MCM)

    SBC: Freedom Photonics LLC            Topic: 04a

    As computational density for high-performance computing and big-data services continues to scale, performance scalability of next generation computing systems is becoming increasingly constrained by limitations in memory access, power dissipation and chip packaging. The processor-memory communication bottleneck, a major challenge in current multicore processors due to limited pin-out and power bud ...

    STTR Phase II 2020 Department of Energy
  9. Quench Detection Method for Large Superconducting Magnets using Robust MEMS Acoustic Sensor Arrays

    SBC: Tanner Research, Inc.            Topic: 23c

    High Temperature Superconducting (HTS) materials have excellent mechanical and electrical properties that are attractive for various applications such as power cables and high field, high current superconducting magnets, particularly playing a key role in the commercialization of fusion energy machines. However, HTS materials have very slow normal zone propagation velocities (NZPV) (2-3 orders of ...

    STTR Phase II 2020 Department of Energy
  10. The Energy and Cost-efficient E-waste Recovery Project for Rare-earths and Precious Metals

    SBC: Quantum Ventura, Inc.            Topic: 07d

    Idaho National Laboratory (INL), under funding from the Critical Materials Institute(CMI), has developed a US patented technology to reclaim valuable metals from waste electronic equipment. The Electrochemical Recycling Electronic Constituents of Value (E-RECOV) method uses an electrochemical cell to efficiently recover the bulk of metals from discarded electronics, leading to more complete recycl ...

    STTR Phase II 2020 Department of Energy
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